You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
Obsidian/00.03 News/Why Does Crypto Matter Matt...

1731 lines
247 KiB

2 years ago
---
Tag: ["Economy", "Tech", "🪙"]
Date: 2022-10-28
DocType: "WebClipping"
Hierarchy:
TimeStamp: 2022-10-28
Link: https://www.bloomberg.com/features/2022-the-crypto-story/?ref=Weekly+Filet-newsletter
location:
CollapseMetaTable: true
---
Parent:: [[@News|News]], [[Crypto Investments|Crypto Investment]], [[@Investment master|Investment]]
Read:: No
---
 
```button
name Save
type command
action Save current file
id Save
```
^button-WhyDoesCryptoMatterNSave
 
# Why Does Crypto Matter? Matt Levine on BTC, ETH, Blockchain
There was a moment not so long ago when I thought, “What if Ive had this crypto thing all wrong?” Im a doubting normie who, if Im being honest, hasnt always understood this alternate universe thats been percolating and expanding for more than a decade now. If youre a disciple, this new dimension is the future. If youre a skeptic, this upside-down world is just a modern Ponzi scheme thats going to end badly—and the recent “crypto winter” is evidence of its long-overdue ending. But crypto has dug itself into finance, into technology, and into our heads. And if crypto isnt going away, wed better attempt to [understand it](https://www.bloomberg.com/news/features/2022-10-25/10-takeaways-from-matt-levine-s-the-crypto-story). Which is why we asked the finest finance writer around, Matt Levine of [Bloomberg Opinion](https://www.bloomberg.com/opinion), to write a cover-to-cover issue of *Bloomberg Businessweek*, something a single author has done only one other time in the magazines 93-year history (“[What *Is* Code?](https://www.bloomberg.com/graphics/2015-paul-ford-what-is-code/),” by Paul Ford). What follows is his brilliant explanation of what this maddening, often absurd, and always fascinating technology means, and where it might go. —*Joel Weber, Editor,* Bloomberg Businessweek
![Bloomberg Businessweek cover image](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iKwsFM2Qox1Y/v0/-1x-1.jpg)
Featured in *Bloomberg Businessweek*, Oct. 31, 2022. [Subscribe now](https://www.bloomberg.com/subscriptions).
## I
Ledgers, Bitcoin, Blockchains
![vintage photo of man typing on computer](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/ioIz_KLlfJpY/v0/-1x-1.jpg)
MODERN LIFE CONSISTS IN LARGE PART OF ENTRIES IN DATABASES.
If you have money, what you have is an entry in your banks database saying how much money you have. If you have a share of stock, what you have is generally an entry on a list—kept by the company or, more likely, some central intermediary1—of who owns stock.
If you own a house, things are slightly different. Theres a house involved. But your ownership of that house is probably written down in some database; in the US this often means theres a record of you buying the house—your title—in a filing cabinet in the basement of some county clerks office. (Its not a very *good* database.) In many ways the important thing here is the house: You have a key to the front door; your stuff is there; your neighbors will be unsurprised to see you leaving the house in the morning and would be surprised to see someone else coming back in. But in many other ways the important thing is the entry in the database. A bank will want to make sure you have the title before giving you a mortgage; a buyer will want to do the proper procedures to that record before paying you for the house. The key will not suffice.
Lots of other stuff. Much of modern life occurs online. Its not quite true that your social life and your career and your reputation consist of entries in the databases of Meta Platforms and Google and Microsoft, but its not quite false, either.
Some of this stuff has to do with computers. Its far more convenient for the money to be computer entries than sacks of gold or even paper bills. Some of it is deeper than that, though. What *could* it mean to own a house? One possibility is the state of nature: Owning a house means 1) youre in the house, and 2) if someone else tries to move in, youre bigger than them, so you can kick them out. But if theyre bigger than you, now they own the house.
Another possibility is what you might think of as a village. Owning a house means you live there and your neighbors all know you live there, and if someone else tries to move in, then you and your neighbors combined are bigger than them. Homeownership is mediated socially by a high-trust network of peers.
![photo of suburban neighborhood](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iZC0KjPmJ89I/v0/-1x-1.jpg)
Neighborhoods, where everybody knows your name.
A third possibility is what you might think of as a government. Owning a house means the government thinks you own the house, and if someone else tries to move in, then the government will kick them out.2 Homeownership is mediated socially by a government. The database is a way for the government to keep track. You dont have to trust any particular person; you have to trust the rule of law.
Money is a bit like that, too. Sacks of gold are a fairly straightforward form of it, but theyre heavy. A system in which your trusted banker holds on to your sacks for you and writes you letters of credit, and you can draw on those letters at branches of the bank run by your bankers cousin—thats pretty good, though it relies on trust between you and the banker, as well as the banker and the bankers cousin. A system of impersonal banking in which the tellers are strangers and you probably use an ATM anyway requires trust in *the system*, trust that the banks are constrained by government regulation or reputation or market forces and so will behave properly.
Saying that modern life is lived in databases means, most of all, that modern life involves a lot of trust.
![Jamie Dimon](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iW7vesxsTfGU/v0/-1x-1.jpg)
WE TRUST THE KEEPERS OF THE DATABASES.
Sometimes this is because we know them and consider them to be trustworthy. More often it means we have an abstract sense of trust in the broader system, the system of laws and databases and trust itself. We assume that we can trust the systems we use, because doing so makes life much easier than *not* trusting them and because that assumption mostly works out. Its a towering and underappreciated achievement of modernity that we mostly do trust the database-keepers,
![Mark Zuckerberg, Sundar Pichai, Christine Lagarde, Cathie Wood](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iksjnh_pk2O4/v0/-1x-1.jpg)
and that they mostly are trustworthy.
![Bernie Madoff](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iJrb_PVyQqIg/v0/-1x-1.jpg)
B.
What If You Dont Like It?
i. Distrust
But we dont always trust them, and theyre not always trustworthy.
Sometimes they just arent. There are banks you cant trust to hold your money for you and places where you cant trust the rule of law to regulate them. There are governments you cant trust not to seize your money from the banks, or falsify election results, or change the property registry and take your house. There are social media companies you cant trust not to freeze your account arbitrarily. Most people in the US, most days, live in a high-trust world, where its easy and reasonable to trust that the intermediaries who run the databases that shape our lives will behave properly. But not everyone everywhere lives like that.
Even in the US, trust can be fragile. The 2008 financial crisis caused huge and lasting damage to a lot of peoples trust in the banking system. People trusted banks to do nice, safe, socially productive things, and it turned out they were doing wild, risky things that caused an economic crisis. After that it became harder for many people to trust banks to hold their savings.
Also, though, you might have a philosophical objection to trust. Even if your bank has an absolutely unblemished record of keeping track of your money, that might not be good enough for you. Your bank is, to you, a black box. “How do I know youll give me my money back?” you could ask the bank. And the bank will say things like “Here are our audited financial statements” and “We are regulated by the Federal Reserve and insured by the Federal Deposit Insurance Corp.” and “We have never *not* given back anyones money.” And youll say, “Yes, yes, thats all fine, but how do I *know*?” You dont. Trust is built into the system, a prerequisite. You might want proof.3
![City skyline](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iU04YGFs0xjk/v0/-1x-1.jpg)
Can you name this bank? Doesnt matter, its still a black box!
ii. Composability
Even if youre generally cool with trusting the keepers of modern databases, you might have a more technical objection. These databases arent always very good. Lots of the banking system is written in a very old computer language called Cobol; in the US people still frequently make payments—electronic transfers between electronic databases of money—by writing paper checks and putting them in the mail. US stock trades take [two business days](https://www.sec.gov/news/press-release/2017-68-0) to settle: If I buy stock from you on a Monday, you deliver the stock (and I pay you) on Wednesday. This isnt because your broker has to put stock certificates in a sack and bring them over to my brokers office, while my broker puts dollar bills in a sack and brings them over to your brokers office, but because the actual process is a descendant of that. Its slow and manual and sometimes gets messed up; lots of stock trades “fail.”
Dont even get me started on the property registry. If you buy a house, you have to go to a ceremony—a “closing”—where a bunch of people with jobs like “title company lawyer” mutter incantations that let you own the house. It can take hours.
If your model of how a database should work comes from modern computers, the hours of incantations seem insane. “There should be an API,” you might think: There should be an application programming interface allowing each of these databases to interact with the others. If your bank is thinking about giving you a mortgage, it should be able to query the property database automatically and find out that you own your house, rather than send a lawyer to the county clerks office. And it should be able to query the Department of Motor Vehicles registry automatically and get your drivers license for identification purposes, and query your brokerage account automatically and examine your assets.
Modern life
consists of entries
in databases:
![filing cabinet](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iS2K7d_jy6b8/v0/-1x-1.jpg)
What if we
updated
them?
What if we rewrote all the databases from scratch, in modern computer languages using modern software engineering principles, with the goal of making them interact with one another seamlessly?
If you did that, it would be almost like having one database, the database of life: I could send you money in exchange for your house, or you could send me social reputation in exchange for my participation in an online class, or whatever, all in the same computer system.
That would be convenient and powerful, but it would also be scary. It would put even *more* pressure on trust. Whoever runs that one database would, in a sense, run the world. Whom could you trust to do that?
![solar eclipse](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iw3rwYgRkGb8/v0/-1x-1.jpg)
What if there was one database, and everyone ran it?
In 2008, Satoshi Nakamoto published a method for everyone to run a database, thus inventing “crypto.”
Well, Im not sure thats what Satoshi thought he was doing. Most immediately he was inventing *Bitcoin: A Peer-to-Peer Electronic Cash System*, which is the title of his famous [white paper](https://bitcoin.org/bitcoin.pdf).
What Satoshi said hed invented was a sort of cash for internet transactions, “an electronic payment system based on cryptographic proof instead of trust, allowing any two willing parties to transact directly with each other without the need for a trusted third party.” If I want to buy something from you for digital cash—Bitcoin—I just send you the Bitcoin and you send me the thing; no “trusted third party” such as a bank is involved.
When I put it like that, it sounds as if Satoshi invented a system in which I can send you Bitcoin and *nobody* else is involved. What he actually invented was a system in which *lots* of other people are involved.
i. Digression: What are you even reading? Why are you reading it? Why am I writing it?
Hi! [Im Matt](https://twitter.com/matt_levine). Im a former lawyer and investment banker. Now Im a columnist at Bloomberg Opinion. In my day job, I write about finance. I like finance. Its fun to write about. Its a peculiar way of looking at the world, a series of puzzles, a set of structures that people have imposed on economic reality. Often those structures are arcane and off-putting, and its satisfying to understand what theyre up to. Everything in finance is accreted on top of a lot of other things in finance. Everything is weird and counterintuitive, and you often have to have a sense of financial history and market practice to understand why anyone is doing any of the things theyre doing.
For the past few years the most polarizing thing in finance has been crypto. Crypto is a set of ideas and products and technologies that grew out of the Bitcoin white paper. But its also, lets be clear, a set of lines on charts that went up. When Satoshi invented Bitcoin, one Bitcoin was worth zero dollars: It was just an idea he made up. At its peak last November, one Bitcoin was worth more than $67,000, and the total value of all the crypto in circulation was something like $3 trillion. Many people who got into crypto early got very rich very fast and were very annoying about it. They bought Lamborghinis and islands. They were pleased with themselves: They thought crypto was the future, and they were building the future and being properly and amply rewarded for it. They said things like “Have fun staying poor” and “NGMI” (“not gonna make it”) to people who didnt own crypto. They were right and rich and wanted you to know it.
Many other people werent into crypto. They got the not-entirely unjustified impression that it was mostly useful for crime or for Ponzi schemes. They asked questions like “What is this for?” or “Where did all this money come from?” or “If youre building the future, what is the actual *work* youre doing?” or “If youre building the future, why does it seem so grim and awful?” And the crypto people, often, replied: “Have fun staying poor.”
And then, this year, those lines on charts went down. The price of one Bitcoin fell below $20,000; the total value of crypto fell from $3 trillion to $1 trillion; some big crypto companies failed. If youre a crypto skeptic, this was very satisfying, not just as a matter of schadenfreude but also because maybe now everyone will shut up about crypto and you can go back to not paying attention to it. For crypto enthusiasts, this was just a reason to double down on grinding: The crash would shake out the casual fans and leave the true believers to build the future together.
In a sense its a dumb time to be talking about crypto, because the lines went down. But really its a good time to be talking about crypto. Theres a pause; theres some repose. Whatever is left in crypto is not *just* speculation and get-rich-quick schemes. We can think about what crypto means—divorced, a little bit, from the lines going up.
I dont have strong feelings either way about the value of crypto. I like finance. I think its interesting. And if you like finance—if you like understanding the structures that people build to organize economic reality—crypto is amazing. Its a laboratory for financial intuitions. In the past 14 years, crypto has built a whole financial system from scratch. Crypto constantly reinvented or rediscovered things that finance had been doing for centuries. Sometimes it found new and better ways to do things.
![Matt Damon at chalkboard in Good Will Hunting](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iRmRaizNH7Ik/v0/-1x-1.jpg)
Often it found worse ways, heading down dead ends that traditional finance tried decades ago, with hilarious results.
![Matt Damon](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/ivmbaBpAOdFg/v0/-1x-1.jpg)
Often it hit on more or less the same solutions that traditional finance figured out, but with new names and new explanations. You can look at some crypto thing and figure out which traditional finance thing it replicates. If you do that, you can learn something about the crypto financial system—you can, for instance, make an informed guess about how the crypto thing might go wrong—but you can also learn something about the traditional financial system: The crypto replication gives you a new insight into the financial original.
Also, I have to say, as someone who writes about finance, I have a soft spot for stories of fraud and market manipulation and smart people putting one over on slightly less smart people. Often those stories are interesting and illuminating and, especially, funny. Crypto has a very high density of stories like that.
And so, now, I write a lot about crypto. Including quite a lot right here.
I need to give you some warnings. First, I dont write about crypto as a deeply embedded crypto expert. Im not a true believer. I didnt own any crypto until I started working on this article; now I own roughly $100 worth. I write about crypto as a person who enjoys human ingenuity and human folly and who finds a lot of both in crypto.
Conversely, I didnt sit down and write 40,000 words to tell you that crypto is dumb and worthless and will now vanish without a trace. That would be an odd use of time. My goal here is not to convince you that crypto is building the future and that if you dont get on board youll stay poor. My goal is to convince you that crypto is interesting, that it has found some new things to say about some old problems, and that even when those things are wrong, theyre wrong in illuminating ways.
Also, Im a finance person. It seems to me that, 14 years on, crypto has a pretty well-developed financial system, and Im going to talk about it a fair bit, because its pretty well-developed and because I like finance.
![A crowd at a Bitcoin conference in Miami, April 2022](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/igkMd6UJklHY/v0/-1x-1.jpg)
BUT NO ONE SHOULD CARE *THAT* MUCH ABOUT A FINANCIAL SYSTEM.
Riveted: A crowd at a Bitcoin conference in Miami, April 2022.
A financial system is, well, a series of databases. Its a way to shuffle around claims on tangible stuff; its an adjunct to the real world. A financial system is good if it makes it easier for farmers to grow food and families to own houses and businesses to make awesome computer games, if it helps to create and distribute abundance in real life. A financial system is bad if it trades abstract claims in ways that enrich the people doing the trading but dont help anyone else.
I … ehhh … uh. A salient question in crypto, for the past 14 years, has been: What is it good for? If you ask for an example of a business that actually uses crypto, the answers youll get are mostly financial businesses: “Well, we built a really great exchange for trading crypto.” Cool, OK. Sometimes these answers are plausibly about creating or distributing abundance: “Crypto lets emigrants send remittances cheaply and quickly.” Thats good. Often theyre about efficient gambling. Gambling is fun, nothing against it. But a financial system that was purely about gambling would be kind of limited.
Meanwhile, cryptos most ardent boosters say crypto is about building real, useful things. Crypto will redefine social relationships, and gaming, and computers. It will build the metaverse. Crypto is the vital component of the next leap in the internet; crypto will build “web3” to replace our current “web2.” Maybe? If you ask for an example of a business that actually uses crypto, youll get a ton of real, lucrative financial businesses, then some vague theoretical musings like “Well, maybe we could build a social media network on web3?”
Its still early. Maybe someone will build a really good social media network on web3. Maybe in 10 years, crypto and blockchains and tokens will be central to everything thats done on the internet, and the internet will be (even more than it is now) central to everything thats done in human life, and the crypto early adopters will all be right and rich while the rest of us will have fun staying poor, and schoolchildren will say, “I cant believe anyone ever doubted the importance of Dogecoin.”
I dont want to discount that possibility, and I do want to speculate about it a little bit, maybe sketch a picture of what that might mean. Im not going to give you a road map for how well get there. Im not a tech person, and Im not a true believer. But it is worth trying to understand what crypto could mean for the future of the internet, because the implications are sometimes utopian and sometimes dystopian and sometimes just a modestly more efficient base layer for stuff you do anyway. Plus the finance is cool, and its cool now.
ii. Digression: Names and people
Before we go on, let me say some things about some names. First, “crypto.” This thing Im writing about here: Theres not a great *name* for it. The standard name, which Ill use a lot, is crypto, which I guess is short for “cryptocurrency.” This is not a great name, because 1) it emphasizes *currency*, and a lot of crypto is not particularly about currency, and 2) it emphasizes *cryptography*, and while crypto *is* in some deep sense about cryptography, most people in crypto are not doing a ton of cryptography. You can be a crypto expert or a crypto billionaire or a leading figure in crypto without knowing much about cryptography, and people who *are* cryptography experts sometimes get a bit snippy about the crypto people stealing their prefix.
There are other names for various topics in crypto—
![“blockchain” “DeFi” “web3” “tokens” “the metaverse”](https://www.bloomberg.com/features/2022-the-crypto-story/svg/BW-CRYPTO-P1-TERMINOLOGY-CLOUD-DESKTOP.svg)
—and theyre sometimes used broadly to refer to a lot of whats going on in crypto, but its not like theyre great either. So Ill mostly stick with “crypto” as the general term.
Second, “Satoshi Nakamoto.” Thats a pseudonym, and whoever wrote his white paper has done a reasonably good job of keeping himself, herself, or themselves pseudonymous ever since. (Theres a lot of speculation about who the author might be. Some of the funnier suggestions include [Elon Musk](https://medium.com/@sahil50) and a random computer engineer named, uh, [Satoshi Nakamoto](https://www.newsweek.com/2014/03/14/face-behind-bitcoin-247957.html). Im going to call Satoshi Nakamoto “Satoshi” and use he/him pronouns, because most people do.)
A related point. Other than (maybe?) Satoshi, basically everyone involved in cryptocurrency is a hilariously outsize personality. Its a good bet that if you read an article about crypto, it will feature wild characters. ([One story in *Bloomberg Businessweek*](https://www.bloomberg.com/news/features/2021-10-07/crypto-mystery-where-s-the-69-billion-backing-the-stablecoin-tether) last year mentioned “sending billions of perfectly good US dollars to the *Inspector Gadget* co-creators Bahamian bank in exchange for digital tokens conjured by the *Mighty Ducks* guy and run by executives who are targets of a US criminal investigation.”) Except this one! There wont be a single exciting person in this whole story. My goal here is to explain crypto, so that when you read about a duck guy doing crypto you can understand what it is that hes doing.
iii. Digression: The “crypto” in crypto
Cryptography is the study of secret messages, of coding and decoding. Most of what I talk about in this article wont be about cryptography; it will be about, you know, Ponzis. But the base layer of crypto really is about cryptography, so it will be helpful to know a bit about it.
The basic thing that happens in cryptography is that you have an input (a number, a word, a string of text), and you run some function on it, and it produces a different number or word or whatever as an output. The function might be the [Caesar cipher](https://en.wikipedia.org/wiki/Caesar_cipher) (shift each letter of a word by one or more spots in the alphabet, so “Caesar” becomes “Dbftbs”), or [pig Latin](https://en.wikipedia.org/wiki/Pig_Latin) (shift the first consonants of the word to the end and add “-ay,” so “Caesar” becomes “Aesar-say”), or something more complicated.
![“pig latin”](https://www.bloomberg.com/features/2022-the-crypto-story/svg/BW-CRYPTO-P1-CRYPTOGRAPHY-DESKTOP.svg)
A useful property in a cryptographic function is that it be “one-way.”4 This means its easy to turn the input string into the output string, but hard to do it in reverse; its easy to compute the function in one direction but impossible in the other. (The classic example is that multiplying two large prime numbers is quite straightforward; factoring an enormous number into two large primes is hard.) The Caesar cipher is easy to apply and easy to reverse, but some forms of encoding are easy to apply and much more difficult to reverse. That makes them better for secret codes.
One example of this is a [“hashing” function](https://en.wikipedia.org/wiki/Cryptographic_hash_function), which takes some input text and turns it into a long number of a fixed size. So I could run a hashing function on this article—a popular one is called SHA-256, which was invented by the National Security Agency5—and generate a long, incomprehensible number from it. (To make it more incomprehensible, its customary to write this number in hexadecimal, so that it will have the digits zero through 9 but also “a” through “f.”) I could send you the number and say, “I wrote an article and ran it through a SHA-256 hashing algorithm, and this number was the result.” Youd have the number, but you wouldnt be able to make heads or tails of it. In particular, you couldnt plop it into a computer program and *decode* it, turning the hash back into this article.
The hashing function is one-way; the hash tells you nothing about the article, even if you know the hashing function. The hashing function basically shuffles the data in the article: It takes each letter of the article, represented as a binary number (a series of bits, 0s and 1s), and then shuffles around the 0s and 1s lots of times, mashing them together until they are all jumbled up and unrecognizable. The hashing function gives clear step-by-step instructions for how to shuffle the bits together, but they dont work in reverse.6 Its like stirring cream into coffee: easy to do, hard to undo.
Applying a SHA-256 algorithm will create a 64-digit number for data of any size you can imagine. Heres a hash of the entire text of James Joyces 730-page novel *Ulysses*:
3f120ea0d42bb6af2c3b858a08be9f737dd422f5e92c04f82cb9c40f06865d0e
It fits in the same space as the hash of “Hi! Im Matt”:
86d5e02e7e3d0a012df389f727373b1f0b1828e07eb757a2269fe73870bbd044
But what if I wrote “Hi, Im Matt” with a comma? Then:
9f53386fc98a51b78135ff88d19f1ced2aa153846aa492851db84dc6946f558b
Theres no apparent relationship between the numbers for “Hi! Im Matt” and “Hi, Im Matt.” The two original inputs were almost exactly identical; the hash outputs are wildly different. This is a critical part of the hashing function being one-way: If similar inputs mapped to similar outputs, then it would be too easy to reverse the function and decipher messages. But for practical purposes, each input maps to a *random* output.7
Whats the point of a secret code that cant be decoded? For one thing, its a way to verify. If I sent you a hash of this article, it wouldnt give you the information you need to re-create the article.8 But if I then sent you the *article*, you could plop *that* into a computer program (the SHA-256 algorithm) and generate a hash. And the hash you generate will exactly match the number I sent you. And youll say, “Aha, yes, you hashed that article all right.” Its impossible for you to *decode* the hash, but its easy for you to *check* that I had *encoded* it correctly.
This would be dumb to do with this article, but the principle has uses. A simple, everyday one is passwords. If I have a computer system and you have a password to log in to the system, I need to be able to check that your password is correct. One way to do this is for my system to store your password and check what you type against what Ive stored: I have a little text file with all the passwords, and it has “Password123” written next to your username, and you type “Password123” on the login screen, and my system checks what you type against the file and sees that they match and lets you log in. But this is a dangerous system: If someone steals the file, they would have everyones password. Its better practice for me to *hash* the passwords. You type “Password123” as your password when setting up the account, and I run it through a hash function and get back
008c70392e3abfbd0fa47bbc2ed96aa99bd49e159727fcba0f2e6abeb3a9d601
and I store *that* on my list. When you try to log in, you type your password, and I hash it again, and if it matches the hash on my list, I let you in. If someone steals the list, they cant decode your password from the hash, so they cant log in to the system.9
There are other, more crypto-nerdy uses for hashing. One is a sort of time stamping. Lets say you predict some future event, and you want to get credit when it does happen. But you dont want to just go on Twitter now and say, “I predict that the Jets will win the Super Bowl in 2024,” to avoid being embarrassed or influencing the outcome or whatever. One thing you could do is write “the Jets will win the Super Bowl in 2024” on a piece of paper, put it in an envelope, seal the envelope, and ask me to keep it until the 2024 Super Bowl, after which youll tell me either to open the envelope or burn it. But this requires you and everyone else to trust me.
Another, trustless thing you could do is type “the Jets will win the Super Bowl in 2024” into a cryptographic hash generator, and it will spit out:
64b70b0494580b278d7f1f551d482a3fb952a4b018b43090ffeb87b662d34847
and then you can tweet,
![Matt Levines tweet “Here is a SHA-256 hash of a prediction I am making: 64b70b0494580b278d7f1f551d482a3fb952a4b018b43090ffeb87b662d34847.”](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i5T6YoMHh.A8/v0/-1x-1.jpg)
Not a real tweet! But you can follow me on Twitter at [@matt\_levine](https://twitter.com/matt_levine).
Everyone will say, “Well, arent you annoying,” but they wont be able to decode your prediction. And then in a while, when the Jets win the Super Bowl, you can say, “See, I called it!” You retweet the hashed tweet and the plain text of your prediction. If anyone is so inclined, they can go to a [hash calculator](https://xorbin.com/tools/sha256-hash-calculator) and check that the hash really matches your prediction. Then all the glory will accrue to you.
![a key](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/ixwTgtMyCcGE/v0/-1x-1.jpg)
Aside from hashing, another important one-way function is public-key encryption. I have two numbers, called a “public key” and a “private key.” These numbers are long and random-looking, but theyre related to each other: Using a publicly available algorithm, one number can be used to lock a message, and the other can unlock it. The two-key system solves a classic problem with codes: If the key I use to encrypt a message is the same one youll need to decode it, at some point Ill have to have sent you that key. Anyone who steals the key in transit can read our messages.
With public-key encryption, no one needs to share the secret key. The public key is public: I can send it to everyone, post it on my Twitter feed, whatever. The private key is private, and I dont give it to anyone. You want to send me a secret message. You write the message and run it through the encryption algorithm, which uses 1) the message and 2) my public key (which you have) to generate an encrypted message that you send to me. Then I run the message through a decryption program that uses 1) the encrypted message and 2) my *private* key (which only I have) to generate the original message, which I can read. You can encrypt the message using my public key, but nobody can *decrypt* it using the public key. Only I can decrypt it using my private key. (The function is one-way as far as youre concerned, but I can reverse it with my private key.)
![mini keychain](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/intM5537HirU/v0/-1x-1.jpg)
A related idea is a “digital signature.” Again, I have a public key and a private key. My public key is posted in my Twitter bio. I want to send you a message, and I want you to know that I wrote it. I run the message through an encryption program that uses 1) the message and 2) my private key. Then I send you 1) the original message and 2) the encrypted message.
You use a decryption program that uses 1) the encrypted message and 2) my public key to decrypt the message. The decrypted message matches the original message. This proves to you that I encrypted the message. So you know that I wrote it. I couldve just sent you a Twitter DM instead, but this is more cryptographic.
Imagine a simple banking system in which bank accounts are public: Theres a public list of accounts, and each one has a (public) balance and public key. I say to you: “I control account No. 00123456789, which has $250 in it, and Im going to send you $50.” I send you a digitally signed message saying “heres $50,” and you decode that message using the public key for the account, and then you know that I do in fact control that account and everything checks out. Thats the basic idea at the heart of Bitcoin, though there are also more complicated ideas.
![big keychain](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/id5_Y0wW26pg/v0/-1x-1.jpg)
iv. How Bitcoin works
The simple form of Bitcoin goes like this. Theres a big public list of addresses, each with a unique label that looks like random numbers and letters, and some balance of Bitcoin in it. An address might have the label “1A1zP1eP5QGefi2DMPTfTL5SLmv7DivfNa”10 and a balance of [68.6](https://www.blockchain.com/btc/address/1A1zP1eP5QGefi2DMPTfTL5SLmv7DivfNa) Bitcoin. The address acts as a public key.11 If I “own” those Bitcoin, what that means is I possess the private key corresponding to that address, effectively the password accessing the account.
Because I have the private key, I can send you a Bitcoin by signing a message to you with my private key. You can check that signature against my public key and against the public list of addresses and Bitcoin balances. That information is enough for you to confirm that I control the Bitcoin that Im sending you, but not enough for you to figure out my private key and steal the rest of my Bitcoin.
That kind of means I can send you a Bitcoin without you trusting me, or me trusting you, or either of us trusting a bank to verify that I have the money. “We define an electronic coin as a chain of digital signatures,” Satoshi wrote. The combination of public address and private key is enough to define a coin. Cryptocurrency is called cryptocurrency because its a currency derived from cryptography.
![interdepartmental envelope](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iIl4IFMS_uV0/v0/-1x-1.jpg)
Satoshi said a Bitcoin is essentially a chain of signatures.
Youll notice that all weve done here is exchange a message, and somehow called the result of that a currency. The traditional financial system isnt so different: Banks dont move around sacks of gold or even very many paper bills. Theyre keepers of databases. What happens, roughly, when I make a $100 payment to you is my bank sends a message to your bank telling it to update its ledger.
Similarly, in Bitcoin the messages change a (public) ledger of who holds what. But who maintains *that*? The rough answer is that the Bitcoin network—thousands of people who use Bitcoin and run its software on their computers—keeps the ledger, collaboratively and redundantly. There are thousands of copies of the ledger; every node on the network has its own list of how many Bitcoin are in each address.
Then, when we do a transaction—when I send you a Bitcoin—we dont just do it privately; we broadcast it to the entire network so everyone can update their lists. If I send you a Bitcoin from my address, and my signature on the transaction is valid, everyone will update their ledgers to add one Bitcoin to your address and subtract one from mine.
The ledger is not really just a list of addresses and their balances; its actually a record of *every single transaction*.12 The ledger is maintained by everyone on the network keeping track of every transaction for themselves.13
Thats nice! But now, instead of trusting a bank to keep the ledger of your money, youre trusting thousands of anonymous strangers.
What have we accomplished?
Well its not quite as bad as that. Each transaction is provably correct: If I send a Bitcoin from my address to yours and sign it with my private key, the network will include the transaction; if I try to send a Bitcoin from someone elses address to yours and dont have the private key, everyone on the network can see that its fake and wont include the transaction. Everyone runs open-source software to update the ledger for transactions that are verifiable. Everyone keeps the ledger, but you can prove that every transaction in the ledger is valid, so you dont have to trust them *too* much.
Incidentally, I am saying that “everyone” keeps the ledger, and that was probably roughly true early in Bitcoins life, but no longer. There are thousands of people running “full nodes,” which download and maintain and verify the entire Bitcoin ledger themselves, using open-source official Bitcoin software. But there are millions more not doing that, just having some Bitcoin and trusting that everybody else will maintain the system correctly. Their basis for this trust, though, is slightly different from the basis for your trust in your bank. They could, in principle, verify that everyone verifying the transactions is verifying them correctly.
![](https://www.bloomberg.com/features/2022-the-crypto-story/svg/BW-CRYPTO-P1-TRUST-PHILOSOPHY.svg)
Notice, too, that theres a financial incentive for everyone to be honest: If everyone is honest, then this is a working payment system that might be valuable. If lots of people are dishonest and put fake transactions in their ledgers, then no one will trust Bitcoin and it will be worthless. Whats the point of stealing Bitcoin if the value of Bitcoin is zero?
This is a standard approach in crypto: Crypto systems try to use economic incentives to make people act honestly, rather than *trusting* them to act honestly.
Thats most of the story, but it leaves some small problems. Where did all the Bitcoin come from? Its fine to say that everyone on the network keeps a ledger of every Bitcoin transaction that ever happened, and your Bitcoin can be traced back through a series of previous transactions. But traced back to what? How do you start the ledger?
Another problem is that the *order* of transactions matters: If I have one Bitcoin in my account and I send it to you, and then I send it to someone else, who actually has the Bitcoin? This seems almost trivial, but its tricky. Bitcoin is a decentralized network that works by broadcasting transactions to thousands of nodes, and theres no guarantee theyll all arrive in the same order everywhere. And if everyone doesnt agree on the order, bad things—“double spending,” or people sending the same Bitcoin to two different places—can happen. “Transactions must be publicly announced,” wrote Satoshi, “and we need a system for participants to agree on a single history of the order in which they were received.”
That system, Im sorry to say, is the blockchain.
v. Oh, the blockchain
Every Bitcoin transaction is broadcast to the network. Some computers on the network—theyre called “miners”—compile the transactions as they arrive into a group called a “block.” At some point, a version of a block becomes, as it were, official: The list of transactions in that block, in the order in which theyre listed, becomes canonical, part of the official Bitcoin record. We say that the block has been “mined.”14 In Bitcoin, a new block is mined roughly every 10 minutes.15
The miners then start compiling a new block, which will also eventually be mined and become official. Heres where hashing becomes important. That new block will refer to the block before it by containing a hash of that block—this confirms that the block before it 1) is correct and accepted by the network and 2) came before it in time. Each block will refer to the previous block in a chain—oh, yes, a blockchain. The blockchain creates an official record of what transactions the network has agreed on and in what order. The hashes are time stamps; they create an agreed order of transactions.
You could imagine a simple system for doing this. Every 10 minutes a miner proposes a list of transactions, and all the computers on the Bitcoin network vote on it. If it gets a majority, it becomes official and is entered into the blockchain.
Unfortunately this is a bit too simple. There are no *rules* about who can join the Bitcoin network: Anyone who hooks up a computer and runs the open-source Bitcoin software can do it. You dont have to prove youre a good person, or even a person. You can hook up a thousand computers if you want.
![What mining looks like, in Nadvoitsy, Russia](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iQFvId5feKQw/v0/-1x-1.jpg)
What mining looks like, in Nadvoitsy, Russia.
This creates a risk of whats sometimes called a “[Sybil attack](https://en.wikipedia.org/wiki/Sybil_attack),” named not after the ancient Greek prophetesses but, rather, after the 1973 book about a woman who claimed to have multiple personalities. The idea of a Sybil attack is that, in a system where the ledger is collectively maintained by the group and anyone can join the group without permission, you can spin up a bunch of computer nodes so that you look like thousands of people. Then you verify bad transactions to yourself, and everyone is like, “Ah, well, look at all of these people verifying the transactions,” and they accept your transactions as the majority consensus, and either you manage to steal some money or you at least throw the whole system into chaos.
![Sybil (1973)](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iX0F5fW8YNkE/v0/-1x-1.jpg)
*Sybil* (1973).
The solution to this is to make it *expensive* to verify transactions.
To mine a block, Bitcoin miners do an absurd and costly thing. Again, it involves hashing. Each miner takes a summary of the list of transactions in the block, along with a hash of the previous block. Then the miner sticks another arbitrary number—called a “nonce”—on the end of the list. The miner runs the whole thing (list plus nonce) through a SHA-256 hashing algorithm. This generates a 64-digit hexadecimal number. If that number is small enough, then the miner has mined the block. If not, the miner tries again with a different nonce.
What “small enough” means is set by the Bitcoin software and can be adjusted to make it easier or harder to mine a block. (The goal is an average of one block every 10 minutes; the more miners there are and the faster their computers are, the harder it gets.) Right now, “small enough” means that the hash has to start with 19 zeros. A recent successful one looked like this:
Its like a game of 20 questions where youre constantly guessing a number that will work. Except you get no clues, and its many, many, many times more than 20 guesses. It is vanishingly, vanishingly unlikely that any particular input—any list of transactions plus a nonce—will hash to a number that starts with 19 zeros. The odds are roughly [75 sextillion-to-1](https://www.wolframalpha.com/input?i=16%5E19) against. So the miners run the hash algorithm over and over again, trillions of times, guessing a different nonce each time, until they get a hash with the right number of zeros.16 The total hash rate of the Bitcoin network is something north of 200 million terahashes per second—that is, 200 quintillion hash calculations per second, which is 1) a lot but 2) a lot fewer than 75 sextillion. It takes many seconds—600 on average—at 200 quintillion hashes per second to guess the right nonce and mine a block.
This is a race. Only one miner gets to mine a block, and that miner gets rewarded with Bitcoin. To mine a block is also to “mine” new coins—to pry them out of the system after much computational work, like finding a seam of gold after picking through rock. Hence the metaphor.
![An old-fashioned prospector, circa 1860](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iNq0_GEZdDVk/v0/-1x-1.jpg)
An old-fashioned prospector, circa 1860.
When miners find the right number of zeros, they publish the block and its hash to the Bitcoin network. Everyone else reviews the block and decides if its valid. (“Valid” means all the transactions on the list are valid, the hash is correct, it has the right number of zeros, etc.) If they do, then they start work on the next block: They take the hash of the previous block, plus the transactions that have come in since then, plus a new nonce, and try to find a new hash. Each block builds on the one before.
vi. Mining
All of this is incredibly costly: Miners need special hardware to do all of these hashing calculations over and over again, and these days run [huge farms](https://www.google.com/maps/@30.5725011,-97.0775994,3a,75y,90t/data=!3m7!1e2!3m5!1sAF1QipOsjebRpr4JjgYrvCXS4BceKQ5uYMkao-YFd7ma!2e10!6shttps:%2F%2Flh5.googleusercontent.com%2Fp%2FAF1QipOsjebRpr4JjgYrvCXS4BceKQ5uYMkao-YFd7ma%3Dw462-h260-k-no!7i5280!8i2970?shorturl=1) of always-on computers. Mining Bitcoin uses as much electricity as [various medium-size countries](https://www.nytimes.com/interactive/2021/09/03/climate/bitcoin-carbon-footprint-electricity.html). This is not great for the environment. The most famous [description of Bitcoin](https://kottke.org/21/03/cryptocurrency-explained), attributed to a Twitter poster, might be:
![“Imagine if keeping your car idling 24/7 produced solved Sudokus you could trade for heroin.”](https://www.bloomberg.com/features/2022-the-crypto-story/svg/BW-CRYPTO-P1-HEROIN-QUOTE-DESKTOP.svg)
And it is in some sense purely wasteful. People sometimes say Bitcoin miners are, like, solving difficult math problems to do their mining, but they arent, really. Theyre brute-force guessing quintillions of numbers per second to try to get the right hash. No math problems are being solved, and nothing is added to the worlds knowledge, by those quintillions of guesses.
But the miners *are* solving an important problem for Bitcoin, which is the problem of keeping its network and its ledger of transactions secure. Its *demonstrably costly* to confirm Bitcoin transactions, so its hard to fake, hard to run a Sybil attack. Thats why Satoshi, and everyone else, calls this method of confirming transactions “proof of work.” If you produce the right hash for a block, it proves you did a lot of costly computer work. You wouldnt do that lightly.
Proof-of-work mining is a mechanism for *creating consensus among people with an economic stake in a system*, without knowing anything else about them. Youd never mine Bitcoin if you didnt want Bitcoin to be valuable. If youre a Bitcoin miner, youre invested in Bitcoin in some way; youve bought computers and paid for electricity and made an expensive, exhausting bet on Bitcoin. You have proven that you care, so you get a say in verifying the Bitcoin ledger. And you get paid. You get paid Bitcoin, which gives you even more of a stake in the system.
These Bitcoin come out of nowhere; theyre generated by this mining, by the core Bitcoin software. In fact, all Bitcoin are generated by mining; there was never an initial allocation of Bitcoin to Satoshi Nakamoto or to early investors or anyone else. This is the answer to the question of where Bitcoin come from: They were all mined.
Originally the mining reward, which is set by the software, was 50 Bitcoin per block; currently its [6.25 Bitcoin](https://www.blockchain.com/btc/block/00000000000000000008de28dab492b18fb4a50b9dabf1bc87f122d1ee5bd749). One important point about these mining rewards is that they cost Bitcoin users money. Every block—roughly every 10 minutes—6.25 new Bitcoin are produced out of nowhere and paid to miners for providing security to the network. That works out to more than $6 billion per year.17 This cost is indirect: It is a form of inflation, and as the supply of Bitcoin grows,18 each coin in theory becomes worth a little less, all else being equal. Right now, the Bitcoin network is paying around 1.5% of its value per year to miners.
Thats lower than the inflation rate of the US dollar. Still, its worth noting. Every year, the miners who keep the Bitcoin system secure capture a small but meaningful chunk of the total value of Bitcoin. Bitcoin users get something for that $6 billion:19
![Security and decentralization](https://www.bloomberg.com/features/2022-the-crypto-story/svg/BW-CRYPTO-P1-SECURITY-AND-DECENTRALIZATION.svg)
If you can make a lot of money mining Bitcoin, a lot of people will want to mine Bitcoin. This will make it harder for one person to accumulate most of the mining power in Bitcoin. If one person or group got a majority of the mining power, they could do bad things: They could mine a bad block—double-spending coins, reversing recent transactions, etc. (This is called a “51% attack.”) When there are billions of dollars up for grabs for miners, people will invest a lot of money in mining, and it will be expensive to compete with them. And if you invested billions of dollars to accumulate a majority of the mining power in Bitcoin, you would probably care a lot about maintaining the value of Bitcoin, and so youd be unlikely to use your powers for evil.
## II
What Does It Mean?
So, huh, thats neat. OK, then. Ive described in some detail the workings of the thing, Bitcoin, that Satoshi Nakamoto invented. But lets take a step back: What exactly is it that he invented?
The simplest answer is that he invented Bitcoin.
![photo of Mount Everest](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i31bebrHBI7Y/v0/-1x-1.jpg)
BITCOIN IS A BIG THING.
At its peak, the total value of Bitcoin in the world was more than $1 trillion. There are thousands of articles about it; it has lots of investors and fans and believers. Some of these people are called “Bitcoin maximalists”; they believe that the only really interesting and valuable thing in the world of crypto is Bitcoin. Those people could stop here, I guess. There it is, Bitcoin.
Here, though, I want to keep going. I want to talk about different ways that you might *generalize* Satoshis invention. There are different ways to interpret what Satoshi was up to and what he accomplished, and each interpretation points you to a different direction for crypto.
A minimal generalization of Bitcoin is something like: Satoshi invented a technology for people to send numbers to one another. Thats not nothing. Before Satoshi, I couldve written you an email that said “132.51,” but youd have no way of knowing whether I had the 132.51 on my computer or whether Id already sent the 132.51 to someone else, and youd have no way of proving to other people that you now had the 132.51 on your computer and could send it to them.
I realize that paragraph sounds very stupid, because it is. You definitely have 132.51 on your computer, as well as every other conceivable number; computers can generate numbers arbitrarily and more or less for free. Open a spreadsheet, type “132.51,” and there you go. In a sense, the technological accomplishment of Bitcoin is that it invented a decentralized way to *create scarcity on computers*. Bitcoin demonstrated a way for me to send you a computer message so that youd have it and I wouldnt, to move items of computer information between us in a way that limited their *supply* and transferred *possession*.
But the technological accomplishment is not the whole story, arguably not even the most important part. The wild thing about Bitcoin is not that Satoshi invented a particular way for people to send numbers to one another and call them payments. Its that people accepted the numbers as payments.
Theres nothing inherent in the technology that would make that happen. People might have read the Bitcoin white paper and said, “Huh, this is a cool way to send payments, but your problem is that you arent sending *dollars*, youre sending this thing you just made up, and who wants that?” Well, most of them did say that, initially. But lots of people eventually decided that Bitcoin was valuable.
Thats weird! Satoshi was like,
![cartoon illustration: I have invented a payment system that works great, the only problem is that instead of getting paid in dollars, you get paid in this thing I just made up, is that cool?](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iCZcdpU7IFDc/v0/-999x-999.gif)
And enough people were like,
![cartoon illustration: Yeah, thats cool.](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/itAVV3.fODk8/v0/-1x-1.jpg)
*Illustration: C.W. Moss*
that now crypto is a trillion-dollar business. That social fact, that Bitcoin was *accepted* by many millions of people as having a lot of value, might be the most impressive thing about Bitcoin, much more than the stuff about hashing.
i. Shitcoins
Heres another extremely simple generalization of Bitcoin:
1. You can make up an arbitrary token that trades electronically.
2. If you do that, people might pay a nonzero amount of money for it.
3. Worth a shot, no?
As Bitcoin became more visible and valuable, people just … did … that? There was a rash of cryptocurrencies that were sometimes subtle variations on Bitcoin and sometimes just lazy knockoffs. “Shitcoins” is the mean name for them.
![Bloomberg Businessweek cover](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/ignfSap4HpX8/v0/-1x-1.jpg)
See what we did there?
In 2013 two software engineers threw together [a cryptocurrency](https://en.wikipedia.org/wiki/Dogecoin) and gave it a logo of Doge, the talking shiba inu meme. They called it Dogecoin, and it was a parody of the coin boom. Its worth about $8 billion today. Im not going to explain that to you. Nobody is going to explain that to you. Certainly the guys who invented Dogecoin dont understand it; one of them has taken to Twitter to say he [hates it](https://www.marketwatch.com/story/dogecoin-co-creator-blasts-crypto-as-a-scam-to-help-the-rich-get-richer-11626310808). Its just, like, if youre making up an arbitrary token that trades electronically, and you hope people will buy it for no particular reason, you might as well make it fun. Slap a talking dog on it; give people stuff to make jokes about online.
![Shiba Inu dog](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i9_KoxlyN7rE/v0/-1x-1.jpg)
Incidentally, heres a fun argument that was made against Bitcoin early in its life:
1. Theres a limited supply of Bitcoin.
2. But the Bitcoin software is open-source and can be cloned trivially.
3. So if the price of Bitcoin gets above, you know, $100, someone will just invent Blitcoin, which will be an exact copy of Bitcoin.
4. Bitcoin is arbitrary, and Blitcoin is arbitrary, so theres no reason that Blitcoin should trade at much of a discount to Bitcoin.
5. This will dilute the value of Bitcoin: any sensible person would rather pay $90 for Blitcoin than $105 for Bitcoin, since theyre the same thing but one is cheaper.
6. Therefore, theres an infinite supply of Bitcoin or things that are exactly like it, so the value of Bitcoin cannot get too high.
This argument turned out to be mostly wrong. Socially, cryptocurrency is a coordination game; people want to have the coin that other people want to have, and some sort of abstract technical equivalence doesnt make one cryptocurrency a good substitute for another. Social acceptance—legitimacy—is what makes a cryptocurrency valuable, and you cant just copy the code for that.
Thats a revealing fact: What makes Bitcoin valuable isnt the elegance of its code, but its social acceptance.20 A thing that worked exactly like Bitcoin but didnt have Bitcoins lineage—didnt descend from Satoshis genesis block and was just made up by some copycat—would have the same technology but none of the value.
ii. An uncorrelated asset
Heres another generalization of Bitcoin:
1. Satoshi made up an arbitrary token that trades electronically for some price.
2. The price turns out to be high and volatile.
3. The price of an arbitrary token is … arbitrary?
This may not sound that great to you. But its very interesting as a matter of finance theory. [Modern portfolio theory](https://en.wikipedia.org/wiki/Modern_portfolio_theory) demonstrates that adding an uncorrelated asset to a portfolio can improve returns and reduce risk. Big institutions will invest in timberland or highway tolls or hurricane insurance, because they think that those things *wont* act just like stocks or bonds, that theyll diversify their portfolios, that theyll hold up even in a world where stocks go down.
To the extent that the price of Bitcoin 1) mostly goes up, though with lots of ups and downs along the way, and 2) goes up and down for reasons that are arbitrary and mysterious and *not* tied to, like, corporate earnings or the global economy, then Bitcoin is interesting to institutional investors.
![Adena Friedman and Larry Fink](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iAmQ8hMSn6Vg/v0/-1x-1.jpg)
There are variations. For instance:
1. Bitcoin is not just *uncorrelated* to regular financial stuff—its a *hedge to inflation*. If the Federal Reserve is printing money recklessly, the dollar will lose value, but Bitcoin is in limited supply and will maintain its value even as the dollar is inflated away.
2. Bitcoin is like gold but more convenient. The value of gold is also somewhat arbitrary and mysterious, but its a store of value thats not tied to corporate earnings and central bank policy. Investors who like gold should buy Bitcoin.
Well, those are some things that people said. In practice, it turns out that the price of Bitcoin is pretty correlated with the stock market, especially tech stocks. Bitcoin *hasnt* been a particularly effective inflation hedge: Its price rose during years when US inflation was low, and its fallen this year as inflation has increased. The right model of crypto prices might be that they go up during broad speculative bubbles when stock prices go up, and then they go down when those bubbles pop. Thats not a particularly appealing story for investors looking to diversify. You want stuff that goes up when the broad bubbles pop!
iii. GameStop
![Shiba Inu dog with GameStop gear](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/ilybpy8ZEH5o/v0/-1x-1.jpg)
The simple story of GameStop is that some people on the internet liked the stock.
Im not going to dwell on the meme-stock phenomenon here—I [dwelt on it in this publication](https://www.bloomberg.com/news/features/2021-12-01/meme-stocks-gamestop-gme-amc-and-dogecoin-bloomberg-50-2021) last December. But one important possibility is that the first generalization of Bitcoin, that an arbitrary tradeable electronic token can become valuable just because people want it to, permanently broke everyones brains about all of finance.
Before the rise of Bitcoin, the conventional thing to say about a share of stock was that its price represented the markets expectation of the present value of the future cash flows of the business. But Bitcoin has no cash flows; its price represents what people are willing to pay for it. Still, it has a high and fluctuating market price; people have gotten rich buying Bitcoin. So people copied that model, and the creation of and speculation on pure, abstract, scarce electronic tokens became a big business.
A share of stock is a scarce electronic token. Its also something else! A claim on cash flows or whatever. But one thing that it is is an electronic token thats in more or less limited supply. If you and your friends online want to make jokes and invest based on those jokes, then, depending on your sense of humor and which online chat group youre in, you might buy either Dogecoin or GameStop Corp. stock, and for *your* purposes those things are not *that* different.
B.
A Distributed Computer
Heres another, very different generalization of Bitcoin. In its sharpest form, its mostly attributed to programmer Vitalik Buterin, another colorful character whom we wont discuss.21 It goes like this:
1. Look, this thing you made is a big, sprawling *computer*. The blockchain is doing the functions of a computer. Specifically, its keeping a database of Bitcoin transactions.
2. This computer has some fascinating properties. Its *distributed*: The computers data arent kept on any one particular machine but spread out among lots of nodes. The blockchain creates a mechanism to make sure they all agree on what the database says. Its *decentralized*: Different people run the database on their own separate machines. Its *secure* and *final*: Because of how transactions are encoded into blocks, its more or less impossible for someone to reach back into the database and change a transaction from last week. And its *trustless* and *permissionless*: Anyone who wants to can download the blockchain or mine Bitcoin. The mining mechanism gives people incentives to collaborate and compete with one another to keep the database secure and up to date.
3. But its not a very *good* computer. Mostly it just keeps a list of payments.
![Vitalik Buterin at ETHDenver in February](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i7wHSn0J8638/v0/-1x-1.jpg)
4\. LETS DO THE SAME THING, BUT MAKE IT A GOOD COMPUTER.
   Vitalik at ETHDenver in February. Told you he was colorful!
i. Ethereum
The computer that Vitalik22 invented is generally called Ethereum, or the Ethereum Virtual Machine: Its a *virtual* computer, distributed among thousands of redundant nodes. Each node knows the “state” of the computer—whats in its memory—and each transaction on the system updates that state.
Ethereum works a lot like Bitcoin: People create transactions, they broadcast them to the network, the transactions are included in a block, the blocks get chained together, everyone can see every transaction, etc. The currency of the Ethereum blockchain is called … I dunno, its common to call it “Ether,” though sometimes people say “Ethereum,” and often they just write “ETH.” (Similarly, Bitcoin is sometimes written “BTC.”) In conversation its mostly shortened to “Eth,” pronounced “Eeth.”
But whereas Bitcoin transactions are mostly about sending payments,23 actions on Ethereum are conceived of more generally: Ethereum is a big virtual computer, and you send it instructions to do stuff on the computer. Some of those instructions are “Send 10 Ether from Address X to Address Y”: One thing in the computers memory is a database of Ethereum addresses and how much Ether is in each of them, and you can tell the computer to update the database.
But you can also write *programs* to run on the computer to do things automatically. One sort of program might be: Send 10 Ether to Address Y *if* something happens. Alice and Bob might want to bet on a football game, or on a presidential election, or on the price of Ether.24 They might write a computer program on the Ethereum Virtual Machine to do that. The program would have its own Ethereum account where it could keep Ether, and its programming logic would say something like “if the Jets win on Sunday”—or “if Joe Biden wins the election,” or “if Ether trades above $1,500 on November 1”—“then send the money in this account to Alice; otherwise send it to Bob.” Alice and Bob might then each send one Ether to the account, and it would whir along for a bit checking the football scores or the election results or the Ether price,25 and then when it had an answer to its question—who won the game or the election or is Ether above $1,500—it would automatically resolve the bet and send two Ether to the winner.
Or you could have a program that says: “If anyone sends one Ether to this program, the program will send them back something nice.” “Something nice” is pretty hazy there, and frankly its pretty hazy in actual practice, but in concept anything that you can put into a computer program could be the reward here. So “send me one Ether and I will send you back a digital picture of a monkey” would be one possible program, and I guess it sounds like Im joking, but for a while digital pictures of monkeys were selling for millions of dollars on Ethereum. Or theres a thing called the Ethereum Name Service, or ENS, which allows people to register domain names like “matthewlevine.eth” and use them across various Ethereum functions. You send Ether to the ENS program, and it registers that name to you—you send in money, and it sends you back a domain.
![Vending machine](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/isMTUt.EzW_0/v0/-1x-1.jpg)
Funny, that doesnt look like a contract.
The standard analogy here is a vending machine: A vending machine is a computer in the real world, where you put in a dollar and you get back something that you want. You dont negotiate with the vending machine, or make small talk about the weather while it rings you up. The vending machines side of the transaction is entirely automated. Its programming makes it respond deterministically to you putting in money and pressing buttons.
In the crypto world, these programs are called “smart contracts.” The name is a bit unfortunate. A smart contract is a computer program that runs on the blockchain. Some smart contracts look like contracts: Alice and Bobs bet on the price of Ethereum looks a lot like a financial derivative, which is definitely a contract. Some smart contracts look like vending machines: They sit around in public waiting for people to put money in, and then they spit out goods. A vending machine is not exactly a normal contract, but it is a *transaction*, and people who are into philosophizing about contracts like thinking about vending machines.
But some smart contracts just look like, you know, computer programs. The concept is more general than the name. In the Ethereum white paper, Vitalik Buterin wrote:
> Note that “contracts” in Ethereum should not be seen as something that should be “fulfilled” or “complied with”; rather, they are more like “autonomous agents” that live inside of the Ethereum execution environment, always executing a specific piece of code when “poked” by a message or transaction, and having direct control over their own ether balance and their own key/value store to keep track of persistent variables.
There are limits: Ethereum is a distributed computer, but it doesnt have a keyboard and a monitor. It would be hard to play *Call of Duty* on the Ethereum Virtual Machine. But Ethereums blockchain and smart contracts can serve as sort of a back end to other types of programs. Developers build
or decentralized apps, on Ethereum and other blockchains. These are computer programs that mostly run on the web (perhaps on some centralized or cloud server) but keep some of their essential data on the blockchain. You play a computer game, and your characters attributes are stored on the blockchain. A normal program on the game companys servers renders the characters sword on your screen, but the fact that she has the sword is stored on the blockchain.
One other limit is that its a *slow* computer. The way Ethereum executes programs is that you broadcast the instructions to thousands of nodes on the network, and they each execute the instructions and reach consensus on the results of the instructions. That all takes time. Your program needs to run thousands of times on thousands of computers.
Computers and network connections are pretty fast these days, and the Ethereum computer is fast *enough* for many purposes (such as transferring Ether, or keeping a database of computer game characters). But you wouldnt want to use this sort of computer architecture for extremely time-sensitive, computation-intensive applications. You wouldnt want, like, a self-driving car running on the Ethereum Virtual Machine. You wouldnt want thousands of computers around the world redundantly calculating how far you are from hitting someone before you could brake.
ii. Proof of stake
This distributed computer, the Ethereum Virtual Machine, takes its basic design from Bitcoin. There are blocks, everyone can see them, they are chained together, transactions are signed with private keys, everything is hashed, etc. Its just that, in addition to sending money to people, you can send computer instructions to the blockchain, and the blockchain will execute them.
What that means is that there are thousands of computers each running nodes of the Ethereum network, and all those computers will agree about what happens on that network, who sent money to whom, and what computer instructions executed when. The fact that Ethereum is a distributed, virtual computer means that all those actual computers can come to a *consensus* about what operations executed when. And the reason this was possible is that Bitcoin showed how a decentralized computer network could reach consensus. The stuff with the hashing and the mining and the nonces and the electricity: That is Bitcoins consensus mechanism, proof of work (or PoW).
Until last month, it was also Ethereums. There were some technical differences, but the basic mechanics were pretty similar. Miners did a bunch of hashes of block data, and whoever found the right hash first mined the block and got a reward. Because this was expensive and wasted a lot of resources, it demonstrated a commitment to the Ethereum ecosystem. But the waste itself was bad.
And so, on Sept. 15, after years of planning, Ethereum switched to a new consensus mechanism: Ethereum now uses something called proof of stake (or PoS). The basic ideas remain the same. People do transactions and broadcast them to the Ethereum network. A bunch of computers—in PoW theyre called “miners,” in PoS theyre called “validators”—work to compile these transactions into an official ordered list, called the blockchain. Anyone with a computer can be a miner/validator; the protocol is open to everyone. But the miners/validators have to prove their commitment to the system to mine/validate blocks. In PoW, the way you prove that is by using a lot of electricity to do hashes. In PoS, the way you prove that is by having a lot of Ether.
Oversimplifying a bit, the [general mechanics](https://vitalik.ca/general/2017/12/31/pos_faq.html) are:
1. ANYONE CAN VOLUNTEER TO BE A VALIDATOR BY “STAKING” SOME OF THE NETWORKS CURRENCY, DEPOSITING IT INTO A SPECIAL SMART CONTRACT. THE STAKED CURRENCY CANT BE WITHDRAWN FOR SOME PERIOD.26 ON ETHEREUM, YOU NEED TO STAKE 32 ETHER—CURRENTLY $40,000 OR SO—TO BE A VALIDATOR.
2. VALIDATORS GET TRANSACTIONS AS THEY COME IN AND COMPILE THEM INTO BLOCKS.27
3. AT FIXED INTERVALS (SAY, EVERY 12 SECONDS), ONE VALIDATOR IS RANDOMLY CHOSEN TO PROPOSE A BLOCK, AND SOME OTHER SET OF VALIDATORS IS CHOSEN TO REVIEW THE PROPOSED BLOCK AND VOTE ON IT.
4. THE RANDOMLY CHOSEN VALIDATORS AGREE ON WHETHER TO ADD THE BLOCK TO THE CHAIN. IF EVERYONE IS DOING THEIR JOB HONESTLY AND CONSCIENTIOUSLY, THEYLL MOSTLY AGREE, AND THE BLOCK WILL BE ADDED.
5. THE VALIDATORS GET PAID FEES IN ETHER.
6. IF A VALIDATOR ACTS DISHONESTLY OR LAZILY—IF IT PROPOSES WRONG BLOCKS, OR IF IT FAILS TO PROPOSE OR VOTE ON BLOCKS, OR IF SOMEONE TURNS OFF THE COMPUTER RUNNING THE VALIDATOR—IT CAN HAVE SOME OR ALL OF ITS STAKE TAKEN AWAY AS A PENALTY.
I mean, [thats the concept](https://ethereum.org/en/developers/docs/consensus-mechanisms/pos/), but when I write it out like that, it sounds more manual than it is. Nobody is sitting around reviewing every transaction and agonizing over whether its legitimate. The validators are just running the official open-source Ethereum software. It is all pretty automatic, and you can run it on a laptop with good backup power and a solid internet connection. The big outlay may be the $40,000 to buy Ether. Its not hard to contribute to the consensus. Its hard to *override* it. But being an honest validator is pretty easy.
When we discussed proof-of-work mining, I said that crypto systems are designed to operate on consensus among people with an economic stake in the system. PoW systems demonstrate economic stake in a cleverly indirect way: You buy a bunch of computer hardware and pay for a lot of electricity and do a bunch of calculations to prove you really care about Bitcoin. PoS systems demonstrate the economic stake directly: You just invest a lot of money in Ethereum and post it as a bond, which proves you care.
![historical illustration](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/idzRi7AOgcJw/v0/-1x-1.jpg)
Making coins is a lot of work.
This is more efficient, in two ways. First, it uses less electricity. Burning lots of electricity to do trillions of pointless math calculations a second, in a warming world, seems dumb. Proof of stake uses, to a first approximation, no electricity. Youre simply keeping a list of transactions, and you just have to compile the list once, not 200 quintillion times. The transition to PoS cut Ethereums energy usage by [something like 99.95%](https://blog.ethereum.org/2021/05/18/country-power-no-more).
Second, PoS more directly measures your stake in the system. You demonstrate your stake in Ethereum by 1) owning Ether and 2) putting it at risk28 to validate transactions. To take control of the PoS system and abuse it for your own nefarious purposes, you need to own a *lot* of Ether, and the more you own, the less nefarious youll want to be. “Proof of stake can buy something like 20 times more security for the same cost,” Vitalik has argued.
• Staking
Heres how a Bitcoin miner makes money:
1. Spend dollars to buy computers and electricity.
2. Use the computers and electricity to generate Bitcoin.
3. Sell the Bitcoin, or hold them and hope they go up.
![photo of closet](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iUKyIpuTm_9Y/v0/-1x-1.jpg)
Heres how an Ethereum validator makes money:
1. Buy Ether.
2. Lock it up.
3. Get paid fees in Ether that are, roughly, a percentage of the Ether youve locked up. Currently the fees are around 4%.
![hammock on beach](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/isZwxoSRyZf4/v0/-1x-1.jpg)
Theres still some computer hardware involved—you have to run software to compile and check transactions—but not much of it; again, it can be a laptop. The capital investment isnt in computers but in the relevant cryptocurrency. The transaction is very close to: “Invest a lot of cryptocurrency and then get paid *interest* on that cryptocurrency.”
You can make it even easier on yourself. Instead of downloading the software to run a full Ethereum validator node, and depositing 32 Ether, you can hand your Ether over to someone else and let *them* be a validator. It doesnt need to be 32 Ether: If you have 1 Ether, and 31 other people each have 1 Ether, and you all pool your Ether together, then you have enough to stake, validate transactions, and earn fees. And then you each can have a cut of the fees. The work of validating transactions can be completely separated from the actual staking of Ether.
And in fact a lot of Ethereum validation [runs through crypto *exchanges*](https://www.coindesk.com/layer2/2022/05/18/will-a-proof-of-stake-ethereum-lead-to-more-centralization/) such as Coinbase, Kraken, and Binance, which offer staking as a product to their customers. (The biggest is a thing called Lido Finance, which isnt an exchange but a sort of decentralized staking pool.) The customers keep their Ether with the exchange anyway, so they might as well let the exchange stake it for them and earn some interest.
Yes: interest. If youre putting crypto into a staking pool, what it looks like to you is simply earning *interest* on your crypto: You have 100 tokens, you lock them up for a bit, you get back 103 tokens. The stuff about validating transactions occurs in the background, and you dont really have to worry about it. You just get a percentage return on your money—around 4% now, but maybe less after fees—from locking it up. (Before you compare that to the passive income you might earn on, say, a bond, remember this is paid in volatile Ether.)
Crypto has found a novel way to *create yield*. Well talk about others later—crypto has a whole business of “yield farming”—but this is one. You can deposit your crypto into an account, and it will pay you interest. It will pay you interest not for the reason banks generally do—because theyre lending your money to some other customer who will make use of it—but because you are, in your small way, helping to maintain the security of the transaction ledger.
iii. Gas
Another difference between Ethereum and Bitcoin is that transaction fees are much more important in Ethereum.
The basic reason is that every transaction in Bitcoin is more or less the same: “X sends Y Bitcoin to Z.” In Ethereum, though, there are transactions like “Run this complicated computer program with 10,000 steps.” That takes longer. Thousands of nodes on the Ethereum network have to run and validate each computational step of each contract. If a contract requires a lot of steps, then it will use a lot more of validators time and computer resources. If it requires infinite steps, it would crash the whole thing.
To address this issue, Ethereum has “gas,” which is a fee that people and smart contracts pay for computation. Each transaction specifies 1) a maximum gas limit (basically a number of computational steps) and 2) a price per unit of gas. If the transaction uses up all its gas—if it takes more steps to execute than the gas limit—it fails (and still pays the gas fee). This deters people from sending superlong transactions that clog the network, and it absolutely prevents them from clogging the network forever.
![Vintage image of gas station pump](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/ioK5Pmqmz0HM/v0/-1x-1.jpg)
In early Ethereum, the gas fees, as well as built-in mining rewards, were paid to the miner who mined a block. Since the move to PoS, the built-in rewards are lower (because its much less expensive to be a validator than a miner, so you dont need to get paid as much). And now [some of the gas fees are “burned”](https://notes.ethereum.org/@vbuterin/eip-1559-faq) (the Ether just vanishes) instead of being paid to validators. The basic result is that Ether as a whole is paying less for security under PoS than it used to.
There are still gas fees, though, and some of them still go to validators. And generally speaking, the more you offer to pay for gas, the faster your transaction will be executed: If Ethereum is busy, paying more for gas gets you priority for executing your transactions. It is a shared computer where you can pay more to go first.
iv. Tokens
● ERC-20
One thing a smart contract can do in Ethereum is create new cryptocurrencies. These cryptocurrencies are generally called “tokens.”
Why would you want to do this? One reason we already talked about:
1. You can make up an arbitrary token that trades electronically.
2. If you do that, people might pay a nonzero amount of money for it.
3. Worth a shot, no?
This is extremely *easy* to do in Ethereum. (The Ethereum white paper includes a four-line code snippet “for implementing a token system” on Ethereum.) And so theres the [Shiba token](https://shibatoken.com/), which calls itself “a decentralized meme token that evolved into a vibrant ecosystem.” Its Dogecoin but on Ethereum, easy. It has a “Woof Paper.”
But there are lots of other reasons to create cryptocurrencies. If you set up some sort of app that does a thing on the Ethereum system and you want to charge people money for doing that thing, what sort of money should you charge them? Or if you set up a two-sided marketplace that connects people who do a thing with people who want the thing done, what sort of money should the people who want the thing use to pay the people who do the thing?
Dollars are a possible answer, though an oddly hard one: US dollars dont live on the blockchain, but in bank accounts. Ether is the most obvious answer: Youve set up an app in Ethereum, so you should take payment in the currency of Ethereum. But a persistently popular answer is: You should take payment in *your own currency*. People who add value to your service should be paid in your own special token; people who make use of the service should pay for it in that token. And then if the service takes off, the token might become more valuable.
![coin](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/inyM0CgzMVpg/v0/-1x-1.jpg)
An asset class?
Well discuss this idea in more detail later. For now, Ill just say that Ethereum has a standard for how these sorts of tokens should be implemented, and its called [ERC-20](https://ethereum.org/en/developers/docs/standards/tokens/erc-20/). And when there are decentralized apps on the Ethereum blockchain, theres a good chance that theyll say they have an ERC-20 token.
One essential property of an ERC-20 token is that its fungible—like dollars, or Bitcoin, or Ether. If I create an ERC-20 token called Mattcoin and mint a billion Mattcoins, each of those billion tokens works exactly the same and is exactly interchangeable. They all trade at the same price, and nobody wants, or gets, any particular identified Mattcoin.
● ERC-721
Theres another way to do a token, though. You could have a series of tokens, each with a number. Token No. 1 in the series is different from Token No. 99, in the sense that Token No. 1 has the number 1 and Token No. 99 has the number 99. This is generally referred to as a nonfungible token, or NFT. The most popular Ethereum standard for NFTs is called [ERC-721](https://ethereum.org/en/developers/docs/standards/tokens/erc-721/), and youll see that name sometimes.
Let me quote a bit of the ERC-721 standard:
> The ERC-721 introduces a standard for NFT, in other words, this type of Token is unique and can have different value than another Token from the same Smart Contract, maybe due to its age, rarity or even something else like its visual. Wait, visual?
> Yes! All NFTs have a \[numerical\] variable called tokenId, so for any ERC-721 Contract, the pair contract address, \[numerical\] tokenId must be globally unique. That said, a dapp can have a “converter” that uses the tokenId as input and outputs an image of something cool, like zombies, weapons, skills or amazing kitties!
Look how minimal this standard is, despite the zombies and kitties. An NFT consists of a series of numbered tokens, and the thing that makes it an NFT is that it has a different number in its tokenId field from the other tokens in its series.
*If youd like to imagine that this different number makes it something cool, like a zombie, or a kitty, you can! Go right ahead!* Or if theres a computer program—or an Ethereum dapp—that looks at your number and says, “Ah, right, *this* number corresponds to a zombie with green hair and a fetching scar on his right cheek,” then the computer program is free to say that—and even serve you up a picture of that zombie—and you are free to believe it.
Well come back to this.
![Apefest billboard: It gets weird.](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i2Cn0Euj2b3o/v0/-1x-1.jpg)
IT GETS WEIRD.
v. An ICO
Heres another important difference between Ethereum and Bitcoin. Bitcoin never raised money; Ethereum did.
You can think of Bitcoin as more or less the open-source passion product of one anonymous guy who really likes cryptography. The cost of building the basic system of Bitcoin was Satoshis time, which he donated. Then he mined the first Bitcoins and got super rich, probably, but that came later.
Ethereum was a bit more complicated to build. Vitalik Buterin is the intellectual leader of Ethereum, but there were a bunch of co-founders. There were legal entities. There were programmers. They spent a lot of time on it. They had to pay for food deliveries.
You could imagine Vitalik saying: “OK, we are a company, were Ethereum Inc., were going to start the Ethereum blockchain and make money from it, and well sell shares in Ethereum Inc. to raise the money to build the blockchain. Sell 20% of Ethereum Inc. for cash, get the cash, build the blockchain and, I dont know, collect royalties. Ethereum Inc. collects 0.01% of every Ethereum transaction forever.” Ethereum was a well-known and much-hyped project even before it launched, and they could easily have found investors.
They didnt do that, for philosophical and economic reasons. They wanted a decentralized blockchain ecosystem, and having it owned by a corporation would defeat the purpose.29 So they didnt sell shares. They sold tokens. In July 2014 [they sold Ether](https://ethereum.org/en/whitepaper/#notes) “at the price of 1000-2000 ether per BTC, a mechanism intended to fund the Ethereum organization and pay for development,” according to Ethereums white paper. In all, they sold about 60 million Ether for about $18.3 million, all before the technology itself went live. Ethereums genesis block was mined in [July 2015](https://consensys.net/blog/blockchain-explained/a-short-history-of-ethereum/). Today there is a total of about 122 million Ether outstanding. Some of that, like Bitcoin, comes from mining or, now, validating. But almost half of it was purchased, before Ethereum was launched, by people who wanted to bet on its success.
Camila Russo, in her book about Ethereum, [wrote](https://www.coindesk.com/markets/2020/07/11/sale-of-the-century-the-inside-story-of-ethereums-2014-premine/):
> A whole new financing model had been tested. One where a ragtag group of feuding hackers with no business plan and no live product, let alone users or revenue, could raise millions of dollars from thousands of people from all over the world. Before, anyone who wanted to buy stock in big tech firms like Facebook or Google would need a U.S. bank account; things got even more complicated for those who wanted to invest in startups that hadnt gone to the public markets to raise funds. Now anyone could be an investor in one of the most cutting-edge technology companies out there. All they needed was an internet connection and at least 0.01 Bitcoin.
![screenshots of movie](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iqvUUPAzBtC8/v0/-1x-1.jpg)
Which of these ragtag groups tokens would you choose?
It worked out well for those investors; that 60 million Ether is worth billions of dollars today.
But as a “whole new financing model,” its a mixed bag. Many people, particularly securities regulators, think its *good* that startups usually cant raise money from the general public without at least a business plan. And theres a sense in which this sale—the Ether “pre-mine,” or “initial coin offering” (ICO)—was the original sin of crypto as a financing tool. A lot of other crypto teams copied Ethereums approach, writing up vague plans to build some project and then raising money by preselling tokens that would be useful if the project ever happened. The [analogy](https://twitter.com/matt_levine/status/902617398620168196) Ive tweeted is that ICOs are “like if the Wright Brothers sold air miles to finance inventing the airplane.”
NOT EVERYONE GOT AROUND TO INVENTING THE AIRPLANE.
There was a 2017 ICO boom in which a lot of projects raised a lot of money by selling tokens that never turned out to be useful. When ragtag groups of hackers with no business plan can raise millions of dollars from anyone with an internet connection, they all will. The odds that any particular one of those non-business-plans will succeed are low. The odds that any particular one will be a scam are high.
vi. Other chains
● Layers, trilemmas
The basic ideas of Ethereum—a distributed computer, smart contracts, dapps, new tokens, etc.—caught on broadly within crypto. Ether is now the [second-biggest cryptocurrency](https://coinmarketcap.com/) (well behind Bitcoin, well ahead of everything else).
But it has a lot of competition: If youre building smart contracts, there are a lot of other blockchains where you can run them, including
**BNB Chain,
Solana,
Avalanche,
Cardano,
Tezos,
Polkadot,
Algorand,
Tron,
and Terra 2.0.**
These platforms, like Bitcoin and Ethereum, are called “Layer 1 blockchains,” meaning theyre entirely separate from one another; each Layer 1 blockchain maintains its own ledger. They compete with one another much like other tech platforms do, arguing that they offer better performance, a better environment for developers, a different programming style, better tools.
A famous problem in crypto is the “[blockchain trilemma](https://vitalik.ca/general/2021/04/07/sharding.html)”: Blockchains want to be scalable (they can process a lot of transactions quickly), decentralized (they dont depend on a few trusted parties), and secure (a minority of computers on the network cant successfully attack it). But, says the trilemma, you can only choose two of those three.
![Pick any two triangle](https://www.bloomberg.com/features/2022-the-crypto-story/svg/BW-CRYPTO-P2-TRILEMMA.svg)
Bitcoin and Ethereum chose decentralization and security, which makes them fairly slow computers. Other blockchains are faster but more centralized: If your consensus mechanism is “We trust six computers to verify all transactions,” thats going to be faster than Bitcoins proof-of-work algorithm. But if someone hacks those six computers, look out.
People on the decentralized-and-secure blockchains spend a lot of time thinking about scaling. Often this involves so-called Layer 2 systems, which are built on top of Layer 1 technology such as Bitcoin and Ethereum. For instance, Bitcoin has the [Lightning Network](https://lightning.network/lightning-network-paper.pdf), a Layer 2 payment system that basically lets people on the Bitcoin blockchain set up payments to each other without running all of them through the blockchain. This makes the payments faster and cheaper, and they periodically settle on the blockchain for security.
Much of the thought in Ethereum these days is about how to scale it so that it can execute large numbers of transactions quickly and cheaply—a prerequisite for building a universal world computer, or frankly even a payments system that can compete with credit cards. Much of the action here is about Layer 2 systems that specialize in doing some sorts of transactions off the main Ethereum blockchain (where space is somewhat scarce and expensive) and then saving the results to that blockchain (where transactions are secure and immutable).30
● Bridges, wrapping
Some people in crypto are faithful to a single blockchain: They are Bitcoin maximalists, or Ethereum or Avalanche or Solana loyalists. Many people are generalist dabblers, though. They like buying lots of tokens on lots of blockchains, because they see merit in many blockchain platforms, or because they like it when lines go up.
![image of people with laser eyes](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iR.r6Z01EFhI/v0/-1x-1.jpg)
One result of this is that sometimes you will want to own the token of one blockchain on another blockchain. This comes up a lot in decentralized finance, or DeFi, the system of crypto exchanges and financial products that live on blockchains. If youre writing smart contracts to trade tokens on the blockchain, those smart contracts—computer programs—will have to run on one particular blockchain. But you might not want to limit yourself to the tokens of that blockchain. (You are, after all, building an exchange.) You might want to write programs on the Ethereum blockchain that trade Bitcoin or write programs on Solana that trade Ether. Say you want to write a smart contract on Solana to swap some Ether for SOL (the Solana token). How do you do that?
You dont. Your Ether lives on the Ethereum blockchain. “You have Ether” is a fact about the ledger on that blockchain. The Solana blockchain has no record of that. Nor does Ethereum have any record of Solana tokens. Its all incompatible, separate systems. Its separate banks and property registers and DMVs all over again.
Thats an annoying answer and cant really be right, so there are workarounds. The principal one is called a “bridge.” A bridge is, generally, a smart contract on one blockchain, a smart contract on another blockchain, and some sort of trusted computer program that sits between them and passes messages. If you want to swap some Ether for SOL, you find a bridge. You send your Ether to the bridges smart contract in Ethereum, which locks it up: As far as the Ethereum blockchain is concerned, your Ether belongs to the bridge now. The bridges off-chain computer program sees this and alerts its Solana smart contract, which gives you the equivalent of the Ether on the Solana blockchain.
“The equivalent of the Ether” could, I suppose, be some amount of SOL at whatever the current Ether/SOL exchange rate is. (The bridge could also be an exchange.) But the normal approach is to take Ether on Ethereum and give you back “wrapped Ether” (sometimes “wETH”) on Solana. Wrapped Ether is a token issued by the bridges smart contract on the Solana blockchain, representing a claim on the bridges Ether on the Ethereum blockchain. It is, as it were, Ether on the Solana network.
![pig in a blanket appetizer](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i2zq9gEhk.m8/v0/-1x-1.jpg)
1+1=3?
Bridges are notorious sites of risk in crypto: A big bridge contract will have a lot of crypto locked up in it, will need to regularly send and receive crypto from strangers, and will have to interoperate between different environments. If you can find a bug in a bridge, you can make a lot of money. People do that pretty regularly. An actual big Solana/Ethereum bridge is called Wormhole; it was [hacked this year](https://blog.chainalysis.com/reports/wormhole-hack-february-2022/) for about $320 million of wETH.
![tightrope walker in the mountains](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i_6nkdj.N.44/v0/-1x-1.jpg)
Heres a slightly different generalization of Bitcoin:
1. Look, youve built a distributed *database*.
2. This database has some fascinating properties. Its distributed, decentralized, secure, trustless, and permissionless.
3. Your database happens to track the ownership of electronic coins.
4. What if we built a database like that to track the ownership of *other* things?
i. Map and territory
“Modern life consists in large part of entries in databases,” I said, and then I listed a few, starting with money. Theres a reason I started with money, and why Satoshi did, too. A dollar *is* an entry on a list of dollars. If you have dollars, what you have is an entry in your banks database saying how many dollars you have. This entry is the dollars. The bank doesnt have sacks of gold or a big box of paper currency that the database refers to. It just has the database.
This is even more true for Bitcoin. There are no paper Bitcoins at all. If the Bitcoin ledger says you have a Bitcoin, then you have a Bitcoin. Thats all a Bitcoin is.
Almost nothing *else* works quite that way, though. If you own a house, in some legal sense the main thing that you own is an entry in a property register. But in some much more important sense, the main thing that you own is *the house*. If your house burned down, you could not sleep in your deed.
Conversely, if someone snuck into the property registry at night and slipped in a new deed saying that *they* owned your house, and then they showed up at your house to kick you out, you might reasonably raise objections like “But all my stuff is here,” or “But I have the keys to the locks,” or “But all my neighbors know I live here,” or “But this is the address on my drivers license,” and you might convince everyone—the sheriff, the courts, your mortgage lender—that in fact you own the house and the deed is wrong. The property registry is not *definitive* for house ownership the way the Bitcoin ledger is definitive for Bitcoin ownership.
But the idea of putting important databases of real-world stuff “on the blockchain”—for some reason the definite article is always used with this stuff, and one shouldnt worry too much about *which* blockchain—has a lot of appeal. People are always talking about moving real estate registries or cargo manifests or carbon emissions onto the blockchain.
This is appealing because, as a database, the blockchain has some nice properties. The important public blockchains such as Bitcoin and Ethereum are secure, open, and permissionless. Anyone can prove they own a Bitcoin, and that ownership cant be reversed arbitrarily.
And anyone can *build* on these systems.
![lego scene](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/ishLA5BUfQNg/v0/-1x-1.jpg)
If you want to build an exchange for trading Ethereum, you can just do it; the blockchain is public, and the standards for building Ethereum programs are open. Building a new system for buying *houses* is overwhelmingly difficult. Youd need to get lots of banks and county property registries and appraisers on board. But if, somehow, the houses were moved to the blockchain, that would permanently allow for permissionless innovation: Everyone could build programs and exchanges and derivatives and interfaces for house buying, and the best ones could win.
The problem is that houses cant live on the blockchain. They live in the real world. They can burn down and stuff. Connecting the electronic artifact on the blockchain—the house token?—to its real-world referent—the house—is philosophically and practically tricky.
How to make this connection is largely an unsolved problem, and quite possibly an *unsolvable* one, but also an important one. Cryptos *financial* system is well-developed and has some advantages in openness and permissionless innovation over the traditional financial system. If you could ingest the physical world into that financial system, youd have something cool.
ii. Enterprise blockchain
A less ambitious version of this is: Look, banks are already keeping lots of databases to track lots of things. Dollars in bank accounts but also loans, tradable securities, derivative contracts, trade financing, all sorts of stuff. Some of those databases are slow, some are written in Cobol, and some require an exchange of faxes to settle transactions. It would be nice if those databases were faster, if they could talk to each other efficiently. It would be nice if JPMorgan Chases database could talk to Goldman Sachss database, if there werent a manual and contentious process of reconciling trades between banks.
In 2010, if you were a loan trader at a bank, and you thought,
**“Ugh, our systems for trading loans are so slow and kludgy,”**
and you walked into the CEOs office and said,
**“We should spend tens of millions of dollars hiring top-notch programmers to build a new loan-trading system, and we should start a consortium with our competitors and clients where we all agree to use the same loan-trading system, because that will make my life easier and eliminate a lot of back-office costs,”**
the CEO would probably say things like
But in 2017, if you were a loan trader at a bank, or a blockchain consultant, or frankly a person off the street, and you walked into the office of a bank CEO and shouted the word
the CEO would hand you a sack of money. Lots and lots and lots of people took advantage of this. “Blockchain” was for a while the sexiest word in finance, and banks were tripping over themselves to announce blockchain initiatives.31
The idea here was sometimes vague, to be honest, but broadly speaking were talking about *permissioned* blockchains, or *private* blockchains. Big public blockchains are generally not something a banker is going to like. Having all transactions be public is good for security (everyone can verify that everything is correct) but also bad (if your transactions are meant to be secret). Its also just sort of *icky* for regulation. “Who makes sure that your transaction records are correct?” a bank regulator will ask, and the bank will answer, “Well, we dont really know, but we think its some mining pools in Russia,” and the regulators will get nervous.
But many of the basic ideas of a blockchain—a ledger of every transaction thats demonstrably shared by every computer on the network—can be implemented *privately*. If you get together with 11 of your friends and agree that the 12 of you will do transactions with one another, keep a ledger, verify all the transactions, and use cryptographic hash functions to make sure the ledger isnt changed, then you can just do that. If you all trust each other and dont let anyone else join the network—or if you let only people you trust join the network—then you dont have to worry about malicious miners taking over your network. Its just you and your friends.
This has advantages for security, particularly for *explaining* security to bank regulators. You also dont have to make the blockchain public if you dont want to, and there are efficiency advantages. Its only 12 of you confirming transactions, so you can do it faster. Presumably youre doing this for a reason—you want the ability to do these transactions with each other—so you dont have to get paid for confirming transactions. You dont need mining or staking: Those are ways for public blockchains to reach a consensus among people who have to prove they have a commitment to the system. The 12 of you all know one another and built the system, so your consensus is good enough without any further proof. You can just vote on it.
![archival boardroom image](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iLQhRvXzGO9M/v0/-1x-1.jpg)
An important fact about Bitcoin is that its both a technological method of sending money and the money itself. That is, Bitcoin is a computer system for sending Bitcoins, and a Bitcoin is the thing that the Bitcoin system sends.
Some of what goes on in crypto is *about the technology*: People use the ideas of blockchains and smart contracts and so forth to build software. Some of what goes on in crypto is *about the money*: People call up their brokers to place bets on the prices of crypto tokens going up.
But a lot of what goes on in crypto is *about both*:
![Crypto technology runs on crypto tokens, and crypto tokens get their value from crypto technology.](https://www.bloomberg.com/features/2022-the-crypto-story/svg/BW-CRYPTO-P2-TOKEN-VALUE.svg)
Broadly speaking, the name for this is “web3.” The [idea](https://onezero.medium.com/why-decentralization-matters-5e3f79f7638e) is that the original web was the early development of the internet, when people built decentralized open community-controlled protocols for the internet. “Web 2.0,” or “web2,” was when big tech companies more or less took over the internet; now your experience of the internet is largely mediated through Facebook and Google and Apple and Amazon, and they make tons of money from controlling the internet. No open decentralized project is going to compete with them. But web3 will be when people build decentralized open community-controlled protocols for the internet again *and also make lots of money*. Because the decentralized protocols wont be owned by big tech companies, but they wont be free and owned by no one, either. Theyll be owned by their users.
Just kidding: Theyll be owned by venture capitalists who buy tokens in these projects early on and who are the [biggest boosters of web3](https://www.bloomberg.com/news/articles/2022-06-28/web3-is-the-big-idea-customers-didn-t-ask-for). But also by their users.
![](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/imBRqyA3Q6WI/v0/-1x-1.jpg)
i. Tokens and tokenomics
Think about what you get when you buy a Bitcoin. One thing you get is a unit of “digital cash”: You can send the Bitcoin to someone else to buy a sandwich or whatever. If this digital cash thing takes off, then lots of people will accept Bitcoin for sandwiches, and this currency that you bought will be very useful.
But another thing you get is a *share* in the Bitcoin project. Not a share of actual stock, but still a chance to profit from the success of Bitcoin. If this digital cash thing takes off, then lots of people will want Bitcoin to use to buy sandwiches, and there will be a lot of demand for Bitcoin. But only 21 million Bitcoin will ever exist. So each Bitcoin will be more valuable as more people decide to use Bitcoin as their way to transfer digital cash.
That logic never quite made sense. A convenient currency for digital cash transfer has a stable value, and the *rising* value of Bitcoin makes it *less* useful as a currency: If your Bitcoin keep going up in value, you should not spend them on sandwiches. Bitcoin as an appreciating asset will be a bad currency.32 Still, it worked well *enough*. Bitcoin is used enough for digital transfers of value that it became valuable, and early adopters got rich.
This is a key financial innovation of crypto:
Crypto built an efficient system to make *the customers of a business also its shareholders*.
Lots of crypto projects have this basic structure. Filecoin is a decentralized system for storing files, where you can pay to store files or get paid for storing files for someone else. You pay, or get paid, in Filecoin. Helium is a decentralized system for wireless hotspots, where you can get paid for running a hotspot or pay for access. You pay, or get paid, in Heliums tokens. And there are play-to-earn video games such as *Axie Infinity*, where you pay for tokens to play the game, and get rewarded in the games tokens. Participating—storing files, providing Wi-Fi, playing the game—makes you an investor as well as a user.
This is potentially powerful because crypto is in the network-effects business. Many crypto projects are useful mainly if lots of other people use them. Bitcoin is a useful payment system if lots of people have Bitcoin and accept it for payments. Ethereum is a useful computing system if lots of people build apps on Ethereum. If you build a decentralized financial exchange or a peer-to-peer marketplace or whatever else on Ethereum, its useful if lots of people use it.
Its hard to build a network-effects business from scratch. Early users of a network-effects business wont get much out of it, because theres no network yet. You might as well just wait until there are more users. The economics of crypto tokens reverse that. Early users of a crypto network get tokens cheap, and if the network takes off later, then their tokens will be worth a lot. Now theres an advantage to being early. “[Token effects](https://www.bloomberg.com/opinion/articles/2021-12-21/there-s-inside-information-in-sec-filings?sref=1kJVNqnU),” people sometimes call this.
Many claims made about web3 are just about taking this basic idea at face value, assuming that its good, and applying it in vague ambitious ways. One issue for web3 is that for most consumers, the process of even signing up is going to be baffling—you generally dont just take out your credit card and start playing a game. You might need to buy Ether on an exchange, then use a bridge to connect to the games own special wallet, then trade your Ether for another token you need to buy characters or fight battles or whatever.
Another problem is the urge to tokenize businesses with no obvious network effects. In July, *Esquire* [published an article](https://www.esquire.com/entertainment/books/a40654712/crypto-books-future/) about how “The Crypto Revolution Wants to Reimagine Books”:
> What if you could own a stake in Harry Potter?
> What if the book series functioned like a publicly traded company where individuals could “buy stock” in it, and as the franchise grows, those “stocks” become more valuable? If this were the case, someone who purchased just three percent of *Harry Potter* back when there was only one book would be a billionaire now.
> Just imagine how that would affect the reading experience. Suddenly a trip to Barnes & Noble becomes an investment opportunity. Early readers could spot “the next big thing” and make a $100 contribution that becomes $10,000 or even $100,000 if the books popularity grows. If readers could own a percentage of the franchise, they might then be incentivized to help that book succeed. They could start a TikTok account to promote the book via BookTok, or use their talents as filmmakers to adapt it to the screen. All of this stands to increase the value of their original investment.
Youd feel like a chump reading poetry, wouldnt you?
![Theres grief of want, and grief of cold, A sort they call despair;](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iaB4uw.jXM_Q/v0/-1x-1.jpg)
The bad way to put this is that every web3 project is simultaneously a Ponzi.33
Why would you buy some tokens to join a web3 Facebook competitor? Well, if you like the product, go right ahead. But probably its at least in part because you want to get rich off the tokens by selling them to someone else. Why do you think someone else will buy the tokens? Is it because you think they like the product? Or is it because you think *they* are planning to get rich by selling to a bigger sucker? Where does that end?
Dror Poleg, a writer on business and technology, [wrote a blog post about web3](https://www.drorpoleg.com/in-praise-of-ponzis/) that I think about all the time. The title is “In Praise of Ponzis.” It goes like this:
![This is, essentially, a pyramid scheme. A Ponzi. But it makes sense. It will be the dominant marketing method of the next decade and beyond. “Nonsense,” you might say. “At the end of the day, you need to sell something; narratives are not enough.” But arent they? Another difference between the old world and ours is that we no longer sell things. In the past, the content was used to sell stuff: executives from manufacturing companies got their TV channel buddies to produce soap operas in order to see more soap. But today, content is not used to sell anything beyond itself. Everything is content, including your actions and behaviors. Why give them away for free?](https://www.bloomberg.com/features/2022-the-crypto-story/svg/BW-CRYPTO-P2-PYRAMID-MOBILEC.svg)
ii. DAOs
I should mention some other web3-ish concepts here. One is a DAO, usually pronounced “dow,” which stands for “decentralized autonomous organization.” DAOs arent decentralized autonomous organizations. In the early days, people sometimes thought thats what they were. “This company runs automatically through smart contracts with no human intervention,” they would say. “Its never been seen before in human history.” But, no. The thing that runs automatically through smart contracts with no human intervention is a *smart contract*. A DAO is a way for *people* to get together to *vote* to control a pot of money or a protocol on the blockchain.
In other words, a DAO is a … company? Like, just a regular company? It has shareholders, who put in money and control it. (Actually, they put in money and get back tokens that give them rights to govern the DAO.) And the shareholders can vote. DAOs are unlike regular companies in that the shareholders (token holders) tend to vote on more stuff: Often theres a chat room on an app called Discord, and people can propose ideas for the DAO, and there are procedures for holding a vote. Whereas US public companies let shareholders vote in only very constrained and symbolic ways, DAOs tend to let token holders vote on all sorts of stuff and often give them a fair amount of real control of the company. In this, DAOs look more like *partnerships* than public corporations.34
![](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/itWwWhNxY_8k/v0/-1x-1.jpg)
Some DAOs are the governance mechanisms for big decentralized finance, or DeFi, applications like crypto exchanges and are responsible for setting policies and parameters for how they work. Other DAOs are just weird larks. [ConstitutionDAO](https://www.constitutiondao.com/) made some headlines in 2021 for raising a bunch of money from crypto investors to buy a copy of the US Constitution. They failed to buy it, did some DAO voting stuff on what to do next, and ultimately returned most of the money (minus gas fees), and shut down. It was a quick way for people to pool their money online to have fun together. It was a Discord chat with a pool of money.
iii. Identity, reputation, credentials
In the Bitcoin white paper, Satoshi makes a privacy recommendation: “A new key pair should be used for each transaction to keep them from being linked to a common owner.” Its free and easy to generate new Bitcoin addresses, so every time you accept a payment in Bitcoin, you should do it in a different address. The Bitcoin blockchain is public, sure, so everyone can see every transaction. But the goal is for all of *your* Bitcoin transactions to be separate, unlinkable, so no one can ever get a full picture of what youre up to on the blockchain.
Meanwhile, in Ethereum theres the [Ethereum Name Service](https://ens.domains/), or ENS, which we talked about earlier. This lets you register a domain name like “matthewlevine.eth” and use it across various Ethereum functions. “Use your ENS name to store all of your addresses and receive any cryptocurrency, token, or NFT,” says its homepage. Venture capitalists sometimes use their ENS domain as their Twitter display name.
These are very different philosophies about what youre doing in the crypto world. Bitcoin is, philosophically, digital cash, anonymous and transactional. Ethereum is, philosophically, something like an open-source programming community, where *reputation* is whats valued. And to accumulate reputation, you need a consistent identity. You do all your Ethereum stuff under your real name, or at least your vanity plate.
![vanity plates](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iwBvoAR.uBfE/v0/-1x-1.jpg)
Many of the grand claims that people make about web3 are about reputation and identity. The idea is that you can keep your identity on the blockchain in some immutable, decentralized, transparent, provable form, and then do good stuff with it. You have some crypto wallet that contains not just tokens that you *bought*, but also tokens you received for *doing* things. When you graduate from college, your college sends you a Bachelors Degree Token, or a series of tokens specifying the courses you took and your grades and maybe what you learned. When you pass your driving test, the DMV sends you a Drivers License Token. When you go to a professional conference, the conference organization sends you an Attended a Conference Token. When you get promoted at your job, your employer sends you a Senior Blockchain Developer Token. When you help out on an open-source project, the leaders of the project send you a Thanks for Helping With Our Open-Source Project Token. When you post a lot on Reddit, other Reddit users send you Good Post on Reddit Tokens ([these exist](https://www.reddit.com/community-points/), and theyre called Community Points). When you help your friend move, your friend sends you a Thanks for Helping Me Move Token. All of these tokens are verifiably signed by their issuers (your college, the DMV, Reddit, your friend), and the issuers have varying degrees of credibility and importance. (These tokens will also, in the general case, be *nontransferable*: You cant sell your college degree to someone else.)
And then if youre looking for a job, youll show prospective employers your degree tokens and conference tokens and Reddit tokens and whatever else seems relevant.35 And if you go on a decentralized dating app, perhaps youll show prospective romantic partners your degree tokens and your cool-hobby tokens and the Im a Good Romantic Partner in Many Ways Tokens that your exes sent you when you were together.36 I dont know. These things are more often described as loose utopian sketches than specific programs. When I write them down they sound extremely *dystopian* to me, but perhaps you disagree.
Sometimes theyre spelled out a bit more. In May, Vitalik Buterin [published a paper](https://papers.ssrn.com/sol3/papers.cfm?abstract_id=4105763), with E. Glen Weyl and Puja Ohlhaver, called *Decentralized Society: Finding Web3s Soul*. It called for a set of “non-transferable soulbound tokens (SBTs) representing the commitments, credentials and affiliations of Souls.’” A soul, in this terminology, is not quite a *person*, though it is more like a person than it is like a Bitcoin address. A soul could be a person, or an institution (a university, etc.), but a person could also have multiple souls for multiple contexts.
“When issuing a tradeable NFT, an artist could issue the NFT from their Soul,” says the paper, beautifully. It would be amazing if theology could be replaced, or perhaps *solved*, by cryptography. A persons soul is nothing more than the things and people that she loves, the people who love her, and the impact that she has on the world, and weve encoded it on the blockchain, here it is. It would be a bummer to lose the private key to your soul.37
*For what shall it profit a man to gain a lot of Bitcoin and lose his own soul?*
Heres another way to describe what Satoshi did: He created a way to do *irreversible transactions* on computers.
i. Censorship resistance
Ordinarily, if theres some database on a computer somewhere, and it changes some data field, it can just change that field back to what it was; those are equivalent, easy things for a computer to do. But the blockchain makes it *hard* to change things back. If a Bitcoin moves from one address to another address, and that transaction is included in a block, and then a few more blocks are added afterward “confirming” the transaction, then it would take an unfathomable amount of computer *work*—running hash functions trillions and trillions of times—to rewind the blockchain to remove that transaction. Blockchain is one-way; its ledger is permanent.
This is nice if you want your ledger to be really secure, hard to hack, backed up in multiple places, though honestly its probably an overkill for those purposes. But its *really* nice if you want your ledger to be immune from *government meddling*. Or, really, anyones meddling. Crypto people call any interference with transactions “censorship.” Bitcoin is “censorship-resistant.” You might not trust the government, because, for instance, you live in a repressive dictatorship that controls the banking system and will seize your money from you unjustly.
![security cameras](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iVXdY6JDtRlM/v0/-1x-1.jpg)
Or you might have other objections. US banks, often though not always in conjunction with US government agencies, are very much in the business of *blocking payments*. Theyll block payments to organizations designated as terrorists by the government, or to countries sanctioned by the government. But theyll also block payments to pornographic websites in response to [public pressure campaigns](https://www.foxbusiness.com/technology/mastercard-banks-consent-porn-sites). If youd like to finance terrorism or do business in Iran or consume internet porn, this sort of thing might drive you to embrace crypto. But even if you dont like terrorism or Iran or porn, this sort of thing might make you *nervous*. What *other* forms of commerce might be shut down by the government, or by banks acting independently of the government?38
ii. Or not
The practical problem with censorship resistance is that the crypto world touches the real world at various points, and those contacts make it hard to be totally free from the pressures of outside influence. A meme in crypto is the “$5 wrench attack,” named for an [*xkcd* web cartoon](https://xkcd.com/538/) pointing out that the way to steal someones cryptocurrency isnt by using sophisticated methods to hack his laptop but rather by “hitting him with this $5 wrench until he tells us the password.”
![wrench](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i2.YCCpcVGQA/v0/-1x-1.jpg)
The other problem is that, while crypto generally creates decentralized and irreversible transactions, it also creates a *permanent public record* of those transactions. The government can just look at that record! It cant *reverse* the transactions, but it can do its best to make life unpleasant for the recipients.
You can send Bitcoin to anyone without anyones permission. But at some point youll want to *do* something with Bitcoin. Youll want to spend it; if you have a lot of it, youll want to spend it on real estate or yachts or jewelry or art.39 A financial system cannot be *entirely* self-contained; you have to be able to turn your money into actual stuff.
And thats where they get you. The normal way to turn your Bitcoin into dollars is through a centralized crypto exchange, such as the apps for buying and selling crypto that you saw advertised during the Super Bowl. Theyre the main “fiat off-ramp,” the place that lets you sell your Bitcoin (which are hard to spend) for dollars (which are easy to spend). Centralized crypto exchanges are *extremely* censorable, since they tend to be run by wealthy CEOs who would prefer to remain wealthy and not in prison, and so theyll do things like ask you for your drivers license before letting you open an account. If youre on the governments “do not open an account” list, they wont open an account for you.
Also, if your *Bitcoin* are on a bad list, they wont turn them into dollars for you. If you come by 100,000 Bitcoin in the wrong way—by hacking someones Bitcoin account, or by doing a ransomware attack, or by getting them from an address that the government has blacklisted for some good or bad reason—and transfer them into an exchange, the exchange will ask you where they came from. Also the government, and the exchange, can trace the provenance of your Bitcoin and see if any of them were involved in known bad transactions (hacks, ransomware, etc.). And if they were, the exchange can block you from taking your money out and can call the police.
![courtroom sketch](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iLqY7doQwzUg/v0/-1x-1.jpg)
*Forbes* contributor and rapper (left).
Earlier this year [a couple were arrested](https://www.bloomberg.com/opinion/articles/2022-02-09/business-rapper-was-bad-at-bitcoin-laundering) and accused of trying to launder 119,754 Bitcoin stolen from the Bitfinex exchange in a [2016 hack](https://www.bloomberg.com/news/features/2022-06-30/how-the-world-s-biggest-bitcoin-btc-hack-at-bitfinex-got-botched). (She was a YouTube rapper and a *Forbes* contributor—colorful character!) Thats billions of dollars of Bitcoin at todays prices. But these people were not living particularly large, because it turns out billions of dollars of stolen Bitcoin can be extremely difficult to spend and extremely easy to track. Most of the allegedly stolen Bitcoin never left the account where they first landed after the hack. Some were sent to crypto exchanges and converted into dollars, but the exchanges kept meticulous records of who was opening the accounts and withdrawing the money and quickly froze withdrawals. Some were exchanged for gold at a precious-metals dealer, but they had to show a drivers license and give a real home address for that transaction, so the FBI saw who got the gold. Some of the money was spent on a Walmart gift card, and if youre buying a Walmart gift card with your billions of dollars of stolen censorship-resistant currency, then your money laundering is not going well.
Weve talked about how Satoshis essential technological innovation was that he found a way to make numbers on computers *scarce*. And a weirdly important generalization of Bitcoin is that it is a way to create electronic scarcity.
i. Wait, what?
Is that good? For digital cash it is, sure. Dollars are electronic ledger entries that are scarce because a complicated system of banking regulation makes them scarce; banks *can* make new dollars just by changing a number in a database, but theres a lot of ceremony involved in making sure they do that in the right way. If you want a decentralized permissionless system of money without trust or regulation, you need some way to limit how much money there is, and Bitcoin solved that problem.
The broader idea of scarce digital assets is weirder, though. The normal condition of human existence is that good stuff is scarce, and companies make money selling it to us because we cant get infinite amounts of it for free. This isnt always true of everything, but its generally true of the things that you notice paying for. (In general you can breathe as much air as you want for free, though science fiction occasionally has fun imagining dystopian worlds where air is scarce, expensive, and controlled by corporations. Crypto people sometimes have fun imagining those worlds, too, but thinking theyre utopias.)
Its hard to mine coal
![coal mine](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iDDIH66n1MJ8/v0/-1x-1.jpg)
or make a chair
![designer chair](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iDz7VZrVHYs4/v0/-1x-1.jpg)
or train a tax accountant.
![archival accountant photo](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iC09x8NMDvYw/v0/-1x-1.jpg)
There isnt an unlimited supply of those things, so they cost money. Every so often a scarce thing becomes abundant—a vast oil field is discovered, a robot is invented that can make 100 chairs per hour—and prices drop, and the people who were previously in the business go broke.
So theres a natural intuition that scarcity creates value and abundance destroys it. This is, of course, wrong. Youd rather have more stuff than less. As a consumer, abundance is good. But you cant get rich selling stuff thats infinitely available for free. And you want to get rich.
The modern world has developed ways to get rich by selling stuff that, in theory, is infinitely available because its electronic. Microsoft Word is not *really* scarce: The amount of physical resources (electricity, computing power, disk space) involved in making one more copy of that computer program and putting it on my computer is tiny in the scheme of things, and when I pay for a copy of Word, Im paying Microsoft Corp. for the effort involved in coming up with Word in the first place, not for the marginal copy. And Microsoft is, in part, in the business of making those copies scarce—of making it *not* trivial to copy its programs, with copy-protection schemes and subscription plans—so that it can charge for them.
Or, if you regularly read Bloomberg online, thank you for paying to get past our paywall. Some of your money is going toward paying for our servers to deliver one more impression of an article to your browser. Not very much of it, though. Most of it is going to me, haha, thanks!
One possible future is that the world will be increasingly like that, at least for some people.40 Technological progress will make the basic necessities increasingly abundant and also less fun, the physical world will become more homogenous and boring, and everyone will spend more of their time online. Their friendships and romances and family life will occur on computers; their lives will get meaning from stuff that happens on computers.
One possibility here is that this will just be nice and egalitarian: Everyone can find their own communities and live in the limitless abundance of the internet. The other possibility is that in an internet world the essential goods will be *positional*. Being in the *cool* internet chat room will be desirable the way living in a fancy house in a good neighborhood is desirable now. Having a *cool* online avatar will be desirable in the way that wearing a nice watch is desirable now. And if crypto is a way to make those things *scarce*, to make the desirable avatars a limited edition available only to trendsetting early adopters and rich people, then you can make money selling them.
This all seems bad to me,
***BUT WHAT DO I KNOW?***
![video game](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iYYJR.wmmUfc/v0/-1x-1.jpg)
ii. Rare monkey JPEGs
I guess we have to talk about NFTs again.
Remember, an NFT is just a token with a number. If you buy a Bitcoin, your Bitcoin is identical to anyone elses Bitcoin.41 If you buy an NFT, it has a number. There will be some series of NFTs—some ERC-721 token series with a name, lets call them Tedious Tamarins—and each NFT in that series will have a number, and Tedious Tamarin No. 63 will be distinguished from Tedious Tamarin No. 64 by having a different number.
Im being as trivial as possible, but of course everything on the internet is distinguished from everything else on the internet by having a different series of numbers. Thats all internet culture is, numbers encoding pictures and sounds and text and arguments. Theres no reason in principle why the number 63 should not encode a tamarin who looks bored but *really cool*, while the number 64 encodes a tamarin who looks bored and kinda schlubby. And so you might pay more for No. 63 because he looks cooler.
What this means *technically* is interesting. The paradigmatic NFT is some piece of digital art: Tedious Tamarins is a series of 1,000 digital drawings of slightly different monkeys with bored expressions, and different tamarins will be worth more depending on how cool they look. (Commonly an NFT series will have a handful of possible attributes—a tamarin might be smoking a cigarette, or wearing a funny hat, or yawning, or closing its eyes, and tamarins will be worth more depending on how many attributes they have and how rare those attributes are. You could imagine the value of different NFTs within a series being based on purely aesthetic considerations, but, mostly not.)
But what does it mean to say that the NFT *is* a piece of digital art? The art does not live on the blockchain. As the well-known software engineer and hacker who goes by the name Moxie Marlinspike wrote in a [blog post](https://moxie.org/2022/01/07/web3-first-impressions.html):
> Instead of storing the data on-chain, NFTs instead contain a URL that points to the data. What surprised me about the standards was that theres no hash commitment for the data located at the URL. Looking at many of the NFTs on popular marketplaces being sold for tens, hundreds, or millions of dollars, that URL often just points to some VPS running Apache somewhere. Anyone with access to that machine, anyone who buys that domain name in the future, or anyone who compromises that machine can change the image, title, description, etc for the NFT to whatever theyd like at any time (regardless of whether or not they “own” the token). Theres nothing in the NFT spec that tells you what the image “should” be, or even allows you to confirm whether something is the “correct” image.
If you buy an NFT, what you own is a notation on the blockchain that says you own a pointer to some web server. On that web server theres *probably* a picture of a monkey, but thats none of the blockchains business.
![broken image](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iGVERZXhC4mY/v0/-1x-1.jpg)
Meanwhile the intellectual-property rights to that picture of a monkey are *certainly* none of the blockchains business. Its not uncommon for the person or company selling the NFT series to 1) own the IP rights to the pictures of the monkeys and 2) promise to transfer those rights, or some of them, to individual holders of the NFTs. But if that happens, it happens off the blockchain; those promises are or arent enforceable through the normal legal system. And its not all that uncommon for the person selling the NFT series *not* to own the IP rights. Early in the NFT boom, it was common for people to make NFTs “of” the *Mona Lisa* or the Brooklyn Bridge. Its just a token with a number; why cant that number refer to “the Brooklyn Bridge”?
![magazine stand with Mona Lisa image](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iFVUXldFDHnk/v0/-1x-1.jpg)
In some ways this technical silliness makes NFTs more culturally interesting. If you buy an NFT, all youre getting is a very thin signifier, some fragile pointer to some piece of digital art. And yet people do pay a lot of money for NFTs with the right sort of monkey picture. These NFTs may not represent ownership in any particularly binding sense, but they represent a *feeling* of ownership. And they also represent a form of *community*.
![Bored Ape Yacht Club images](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i3snN4wAJEFg/v0/-1x-1.jpg)
Worth a shot, no?
The most famous NFT collection is of course the [Bored Ape Yacht Club](https://boredapeyachtclub.com/#/), a series of 10,000 JPEG images of monkeys on Ethereum, some of which sell for millions of dollars. Theres no physical yacht club, but there are (IRL) *parties* for Bored Ape owners. Various celebrities, art dealers, and venture capitalists own apes, and owning an ape is a way to join an exclusive club. And that club has its norms, and those norms include “It is cool to use a picture of your ape as your Twitter profile picture” and “It is *not* cool to use a picture of an ape you *dont* own as your Twitter profile picture.” The technological and legal connections between blockchain and JPEG and ownership are a bit thin, but the connections are enforced culturally.
iii. The metaverse
I plan to go to my grave not knowing what “the metaverse” is, so Im certainly not going to explain it to you. But one thing it is is that you can buy some real estate on the internet. Like, there will be a picture of a house on the internet, and you can have an avatar on the internet that lives in the house, and the avatar can walk from your internet house to the internet store, where it can buy some internet groceries. It will be like a computer game, but more all-consuming and much more boring.
How much should your house in the metaverse cost? Two plausible answers might be “It should cost as much as a house, its a house,” or “It should be basically free, its just a file on a computer, theres essentially infinite space in the metaverse, and nobody has to actually nail together the house.” The second answer strikes me as correct, but thats no fun for the people selling houses on the internet.
![Mark Zuckerberg avatar](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iehEuTJN4ols/v0/-1x-1.jpg)
So, scarcity. The internet houses are NFTs. The goal is to make some of them scarce and prestigious. Having an internet house next door to Elon Musks internet house is desirable, lets assume, and only a couple of internet houses can be next door to Elon Musks internet house. Why? Theyre all on computers; you could put a million internet houses next door to Elons internet house, but you dont. You make the positional goods scarce.
This is dumb, but, I mean, look at Facebook (Meta, now). What are the odds that, 50 years from now, the center of the world economy will be digital goods? What are the odds that we will all spend most of our time and money seeking status and romance and connection and entertainment on the internet? If most goods end up being digital, if most people make their money by producing digital goods, then monitoring and metering the distribution of those goods will be an important economic function. Digital scarcity.
Im sorry to be This Type of Guy, but its hard not to think of the movie *The Matrix*. You know the premise: Everyone is a sack of meat in a bath of nutrients with their brains plugged into a remarkably realistic simulation of late-90s America. Why a remarkably realistic simulation of late-90s America? Why does Neo, the main character, have to go work at a boring desk job if hes just a brain in a vat being fed a soothing simulation by the machines? [Agent Smith explains](https://matrix.fandom.com/wiki/Paradise_Matrix):
![Agent Smith](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/ibDdqHWDUYL8/v0/-1x-1.jpg)
DID YOU KNOW THAT THE FIRST MATRIX WAS DESIGNED TO BE A PERFECT HUMAN WORLD WHERE NONE SUFFERED, WHERE EVERYONE WOULD BE HAPPY? IT WAS A DISASTER. NO ONE WOULD ACCEPT THE PROGRAM. ENTIRE CROPS WERE LOST. SOME BELIEVED THAT WE LACKED THE PROGRAMMING LANGUAGE TO DESCRIBE YOUR “PERFECT WORLD.” BUT I BELIEVE THAT, AS A SPECIES, HUMAN BEINGS DEFINE THEIR REALITY THROUGH MISERY AND SUFFERING. SO THE PERFECT WORLD WAS A DREAM THAT YOUR PRIMITIVE CEREBRUM KEPT TRYING TO WAKE UP FROM.
So they simulated late capitalism instead. Even in a world where all the goods are digital and available in limitless abundance, you still have to have a (simulated) desk job to pay for them. Digital scarcity.
## III
The Crypto Financial System
Lets step back a bit and abstract from what weve discussed so far. Crypto is:
1. A set of tokens, which are worth fluctuating amounts of money. We can say that these tokens are financial assets, like stocks and bonds.42
2. A novel set of ways to create new tokens and distribute them and try to make them worth money.
3. A novel way of *holding* financial assets: Instead of the databases that people use to hold stocks and bonds, you can own your crypto on the blockchain.
4. A novel way to write contracts and computer programs (computer programs that are contracts, and contracts that are computer programs).
If you read only that description, you might object: “Yes, fine, but what is crypto *for*? What do these tokens *do*? *Why* are they worth money?” Nothing in that description answers those objections. I suppose the last one does, in a sense—“Crypto tokens are for building smart contracts for trading crypto tokens”—but its not a very *good* answer, because its entirely self-referential. “Yes, fine, but why are you trading the tokens in the first place?”
![image of a mirror](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i3uqZsPI2_tY/v0/-1x-1.jpg)
What *are* you? What do you *do*?
But for now I want to set this objection to the side. If youre a certain sort of financial person—a financial engineer, an arbitrageur, a market-structure enthusiast, a builder of high-frequency trading systems—this abstract set of facts is incredibly, incredibly beautiful. You wake up one day, and theres just a whole other financial system. Its full of smart people building interesting things, and its full of idiots making terrible mistakes. People have built brilliant new ways to make financial bets that you can use, and theyve built insane new ways to make financial bets that you can exploit. How can you not want to join in? Its so *interesting*, so intellectually appealing, such a blank canvas for all of your aesthetic views about how markets should work. Also, *so many idiots are getting rich; why shouldnt* *you?*
There are other appealing properties when you compare this system to traditional finance. The crypto system is, philosophically, one of *permissionless innovation*. The workings of the major blockchains are public and open-source; if you want to build a derivatives exchange or margin-lending protocol or whatever in Ethereum, you just do it. You dont need to set up a meeting with Vitalik Buterin to get his approval. You dont need to negotiate access and fees with the Ethereum Corp.; there is no Ethereum Corp. Anyone can try anything and see if it works.
![a grid](https://www.bloomberg.com/features/2022-the-crypto-story/svg/BW-CRYPTO-P3-GRID.svg)
If youre a smart young person coming from traditional finance, this feels liberating. If youre used to spending months negotiating credit agreements with prime brokers and setting up direct access to trade on a stock exchange, the idea that you can just *do* stuff in crypto, with no preliminaries, is amazing. Obviously its a bit alarming as well: Some of those long, slow processes in traditional finance are there to prevent money laundering or fraud or ill-considered risk-taking. But, empirically, a lot of them arent really preventing any of those things, or arent doing so in an optimal way. A lot of them are just How Its Always Been Done. Nothing in crypto is How Its Always Been Done; its all too new.
And so people invented a financial system for crypto. It runs alongside the traditional financial system, though they touch at many points. In some ways it looks a lot like a copy of the traditional financial system. In other ways it looks totally different. In some ways its a streamlined and modernized and innovative evolution of the traditional system. In other ways its a chaotic and stupid devolution of the traditional system, a version of traditional finance (“TradFi,” as crypto people call it) that unlearned important historic lessons about fraud and leverage and risk and regulation.
![Its so fun. Lets talk about it.](https://www.bloomberg.com/features/2022-the-crypto-story/svg/BW-CRYPTO-P3-ITS-SO-FUN-DESKTOP.svg)
A.
Your Keys, Your Coins, Your Hard Drive in a Garbage Dump
i. Holding crypto
Maybe the first thing to say about the crypto financial system is that the traditional financial system is deeply *intermediated*, and the crypto system is not. If you have money, your bank tracks your money for you; if you have stock, your broker tracks your stock for you; etc.
One dumb, simple thing that this means: If you have money in the bank, your bank has to give it to you. If you forget the PIN code for your ATM card or if you forget the password for your online banking, youll have a hard time taking out money, and that will be inconvenient for you. But the bank owes you the money; they cant just be like, “Aha, got you, the money is ours now.” Theres some process by which you can go into the bank and prove that you are who you say you are, and theyre like, “Fine, well reset your password, its Test1234, dont forget this time.”
![password word cloud](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iQGTtI.WZVU4/v0/-1x-1.jpg)
Crypto doesnt *necessarily* work like that. Owning Bitcoin means 1) having a public Bitcoin address with some Bitcoin in it and 2) possessing the private key to that address. If you have the public address/private key pair, then you own the Bitcoin; you can transfer them to someone else on the blockchain. If you dont have that pair, then you cant. If you lose your private key or lose track of your public address, theres no one to recover your password for you or give you back your Bitcoin. Theyre just gone.
![a cloud](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iH0M.sDXT02A/v0/-1x-1.jpg)
There are ways to, you know, not lose your keys. Mainly people use “software wallets,” which generate and keep track of their addresses and private keys and allow them to sign transactions and send and receive crypto online. The wallets may be desktop or phone apps, or extensions on a browser. Most modern wallets require you to keep track not of private keys, but rather a “seed phrase” of, typically, 12 random-looking words. Maybe: “army truth speak average” and so on.
The phrase can be used as a seed to generate lots of public-private key pairs, so the wallet can create lots of different addresses that can all be recovered from a single seed phrase. (People often speak of wallets “holding” crypto, but really what they have are these keys for various addresses; the crypto is only ever on the blockchain.) Then you write the seed phrase down on a piece of paper, which is easier to write than a long random number.
![James Howells](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iTpfa5ZHXaUQ/v0/-1x-1.jpg)
Theres still hope, maybe?
But this is a developing technology, and theres a long history of people losing, forgetting, or throwing away their private keys or seed phrases. A guy in Wales named James Howells periodically pops up in the news, because he threw away a hard drive with the private key for 8,000 Bitcoin. Hes pretty sure he knows the garbage dump that has his hard drive, and for years hes been waging a campaign to dig up the dump and sift through the garbage. If he finds the hard drive and if it still works, then hell have Bitcoin worth about $150 million, which he can use to pay all the garbage diggers. In one sense it would be much, much better to have a financial system in which the bank could reset his password and give him back the 8,000 Bitcoin, instead of digging up a garbage dump. In another sense
![an image of garbage](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i6u_TxIkvDhk/v0/-1x-1.jpg)
THIS IS AN EXTREMELY FUNNY FINANCIAL SYSTEM, AND THERES A CHARM TO THAT.
ii. *Not* holding crypto
If youre a portfolio manager at an institutional investor, and you want to buy Bitcoin, and you go to your compliance and operations people and say, “I want to buy Bitcoin, and I will write our private keys down on a Post-it that I will keep next to my computer,” they will say no. If you propose better security measures, they might still say no: This stuff is too new, too scary. If you say, “MegaBank Custody Services will hold our Bitcoin for us, and well just have a book entry on their ledger saying we have Bitcoin,” then compliance might be a bit more comfortable, but that requires MegaBank to offer that service.
But what if you go to compliance and say, “Im just going to enter into a bet with a hedge fund on the price of Bitcoin. For every dollar that Bitcoin goes up, the hedge fund will pay us $5; for every dollar that it goes down, well pay them $5.” Then you *dont have to own crypto at all*. All you have is an over-the-counter derivative with a hedge fund. Compliance knows what that is; thats an understandable thing. There are no weird custody issues there, because theres nothing to keep custody of. There are no weird “coins” to worry about, just a contract with a hedge fund to pay you money. You can write contracts on the price of corn,
![rows of corn](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/ikA0DxsDJX08/v0/-1x-1.jpg)
on interest rates,
![Jerome Powell walking through a door](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/imRswQu4hGoc/v0/-1x-1.jpg)
and on hurricane damage,
![a hurricane](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/icLX2ZnvZRn8/v0/-1x-1.jpg)
so why not Bitcoin? You do due diligence on the hedge fund, you get comfortable with the credit and collateral terms, and then you sign the contract. And then, *economically*, you own some Bitcoin—your investment goes up when Bitcoin goes up, and down when Bitcoin goes down—without the worries of *really* owning Bitcoin. No keys to lose.
And so, in traditional finance theres a big business offering those instruments. CME Group Inc. offers [Bitcoin futures](https://www.cmegroup.com/markets/cryptocurrencies/bitcoin/bitcoin.contractSpecs.html), which are basically the bet that I outlined above: You pay me $5 for every dollar that Bitcoin goes up, and I pay you $5 for every dollar it goes down. Its a trusted, centralized, traditional-finance way to bet on the price movements of Bitcoin.
Still, not everyone can buy futures, which require a lot of money and are not offered by some retail brokerages. In the US financial system, pretty much the easiest thing to invest in is *stocks*. So wrapping Bitcoin in a *stock* would increase its appeal. The easiest way to do this would be a cash Bitcoin exchange-traded fund, a pot of money that trades like stock on a stock exchange and invests the money in Bitcoin. People keep trying to do this, but the US Securities and Exchange Commission remains skeptical and hasnt approved cash Bitcoin ETFs, though they [exist in some other countries](https://www.bloomberg.com/news/articles/2022-06-22/mystery-surrounds-asset-plunge-in-biggest-canadian-bitcoin-etf). The US has, however, approved [Bitcoin *futures* ETFs](https://www.bloomberg.com/opinion/articles/2021-10-15/bitcoin-etfs-are-almost-here), which invest in Bitcoin through futures contracts. Two layers of abstraction: a Bitcoin, wrapped in a futures contract, wrapped in a stock, and delivered to your brokerage account.
![sushi](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iPKXu6l36Oiw/v0/-1x-1.jpg)
i. Fiat on-ramps
OK, I said one way to own a Bitcoin is to write your private key on a Post-it note. But where did you *get* that Bitcoin?43 The main way people in most of the world get into crypto is that they exchange dollars (or euros, pounds, yuan, etc.—what crypto people call “fiat”) for crypto. And how they do that is a tricky question.
![cars](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iMrhJAM80NMA/v0/-1x-1.jpg)
One simple way is for you to find someone with crypto and say, “Hey, can I buy some of your crypto?” They say sure, and you arrange a deal. In researching this article, I set up an Ethereum wallet and texted a friend to ask if he had any Ether that I could buy. He replied sure, and I said, “Send me $20 worth” and gave him my public address. He sent me $20 of Ether, and then he texted me to say, “Done, Venmo me $20.” I did, and our transaction was complete.44 He sent me the Ether before I sent him the dollars, so he took some credit risk, and in fact I was away from my phone when he sent it, so he ended up taking my credit risk for several hours. When I did get his text, I briefly considered that it would be *very* funny if, as part of my research for this article, I *stole* $20 of Ether from him, but that seemed mean.
Im not going to lie: This was fun to do and fun to write about—it felt sillier and more exciting than my automatic monthly Vanguard investments—but its not a good way to run a financial system.45 *In general*, if you get a text asking you to send crypto to a string of letters and numbers, you should throw your phone into the ocean.
Instead, the main way that normal people buy crypto is through *crypto exchanges*, specifically *centralized* crypto exchanges. Crypto exchanges are companies—Coinbase, Gemini, Binance, FTX, Kraken, and Bitfinex are some big ones—that accept regular money for crypto. You wire an exchange $100, and it gives you $100 worth of Bitcoin, perhaps minus a fee.
In the olden days, the stereotype was that a lot of crypto exchanges were run by criminals or incompetent teenagers, or incompetent teenage criminals. The standard crypto-exchange transaction was 1) you exchanged your dollars for Bitcoin to buy heroin, and then 2) the exchange got hacked and lost your Bitcoin before you could even buy the heroin.
Modern crypto exchanges are less like that. For one thing, theyre more careful and technically adept, so theyre less likely to lose your Bitcoin. For another thing, though, theyre big companies, regulators are aware of them, and they try to be good corporate citizens. In their role as on-ramps and off-ramps between traditional currencies and crypto, they do the same sorts of anti-money-laundering and know-your-customer checks that traditional banks and brokerages do. If you show up at Coinbase—a US public company!—with a sack of dollar bills that you got from dealing heroin and try to convert them into Bitcoin, Coinbase will turn you away and probably report you to the police. The centralized exchanges are very much part of the regulated financial system these days. The days of crypto being a zone of utter lawlessness are mostly gone.
This is a series of trade-offs. Roughly speaking, the crypto exchanges of the olden days let you trade dollars for Bitcoin without asking any questions, but they might steal your Bitcoin: When the exchanges were unregulated and crime-positive, the odds of them *doing crime to you* (or having crime done to them) were pretty high. The modern crypto exchanges ask a lot of questions and make it difficult for you to move tons of money in secret, but they probably wont steal your Bitcoin.
ii. Custodians
So youve opened an account at an exchange and sent the exchange $100 to buy $100 worth of Bitcoin. What does the exchange give you for your $100? One possibility: It gives you 0.005215 Bitcoin. It sends you some instructions on how to set up a Bitcoin wallet, it asks you for a public Bitcoin address, it converts $100 to Bitcoin at the current market price, and it sends you that number of Bitcoin at your public address. And then you access those Bitcoin using your private key for that address.
This is suboptimal for the exchange. For one thing, dollar and Bitcoin transactions have different time frames and finality. If you fund your account with a bank transfer or a credit card, and then you buy $100 of Bitcoin, and then you call your bank and say, “Ive been defrauded, I dont recognize that charge,” theres a decent chance the bank will take the $100 from the exchange and give it back to you.46 Meanwhile, the Bitcoin transfer to your wallet is fast and irreversible.
For another thing, you know the exchange will get some customers who dont write down their wallets seed phrase (or lose it or forget it) and then cant access the Bitcoin. And theyll call the exchanges customer service number and say, “I lost the password to my Bitcoin account, can you reset it?” And the exchange will say, “No, it doesnt work that way, also we dont have a customer service number.” And the customers wont like it. “I paid you $100 for Bitcoin, and I dont have the Bitcoin,” theyll say, and blame the exchange and complain to regulators and law enforcement and the press.47
![a woman using a headset](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i2vBlSm9lhq4/v0/-1x-1.jpg)
Now, these problems are annoying but solvable, and modern crypto exchanges do some amount of this, acquiring crypto for “self-custodying” customers. But theres a simpler possibility that is also quite popular. The exchange could hang on to your Bitcoin for you. Instead of sending you 0.005215 Bitcoin on the Bitcoin blockchain, it could go out and buy 0.005215 Bitcoin and put them into its own Bitcoin wallet. Being a professional Bitcoin exchange, it could put in the effort to keep these Bitcoin safe and not lose the keys.
And then instead of sending you 0.005215 Bitcoin, the exchange just keeps a database of its customers and their account balances. And your entry in the database includes your name, your drivers license number, your account number, your email address, your phone number, your password,48 your mothers maiden name, and your account balance, and the exchange writes 0.005215 in the balance field.
And then when you log in to your account, it displays “0.005215 Bitcoin” as your account balance, and you think you own 0.005215 Bitcoin. And youre not exactly wrong. But really what you own is a claim on the exchange for 0.005215 Bitcoin. You dont own them directly, and you dont control the private key. You just have an entry on the ledger of the exchange.
If you have a bank account, the bank owes you money, and you trust it to keep a record of that; if you have a crypto exchange account, its the same, but the exchange owes you Bitcoin. One thing this means is that if you lose your password, you can call the exchange, and it can reset it for you. The customer service can be a bit better.
There are some obvious downsides. One big one: Its like a bank! If you got into Bitcoin because you dont trust banks and you want to be in control of your own money, its somewhat weird, philosophically, to just go and trust a crypto exchange to keep your money for you.
These days the big crypto exchanges seem to be mostly law-abiding, and you can get rich enough running a legitimate crypto exchange that it seems silly to steal the money instead. But another downside is hackers. A crypto exchange has a giant pot of money, and it has to move that money around a lot to deal with customer transactions. Its an appealing target for hackers looking to steal private keys. Again, modern crypto exchanges spend a lot of money on information security, but that wasnt always the case, and theres a long history of Bitcoin exchanges being hacked. Or “hacked.” When all the Bitcoin in an exchanges wallet get stolen, it can be hard to tell, sometimes, whether they were stolen by outside hackers or by the exchanges CEO.
Also, while I suppose an exchange is less likely to lose its private keys than the average customer is, it can happen. In 2018 the CEO of Quadriga Fintech Solutions Corp. died in somewhat mysterious circumstances while on vacation in India. At the time, the companys QuadrigaCX was Canadas largest crypto exchange, and it was apparently run entirely off of its CEOs laptop. When he died, he took all of Quadrigas private keys with him, meaning its customers Bitcoin were lost forever. Or thats what it wouldve meant, except that before he died he also stole all the customers Bitcoin, so the wallets whose keys disappeared with him were empty anyway. When crypto exchanges are bad, they tend to be bad in all ways at once.
iii. Also exchanges, though
Centralized crypto exchanges are on-ramps to crypto for people with dollars and other traditional currencies, but theyre also exchanges. If you have some Bitcoin in your Coinbase account, and youd rather have Ether, you can sell your Bitcoin for Ether. If you want to actively trade among cryptocurrencies, to make bets on which will go up more, you can do that on an exchange.
In traditional finance there tends to be a division between “exchanges” and “brokerages.” If you want to buy stock, you open an account at a brokerage such as Charles Schwab, Fidelity, or Robinhood, and you send your broker an order to buy stock. The stock exchange is a place for big brokerages and institutions to trade stock; retail customers need an account with a broker to access the exchange.49 There are many layers of intermediation.
In crypto thats not generally true: Big crypto exchanges such as Coinbase or FTX let anyone open an account and trade crypto directly on the exchange, and you wouldnt normally connect to the exchange through a broker.50 Every step that goes into making a trade happen—getting your money into your account, taking your buy order, matching your order with someones sell order, settling the trade, putting the crypto in your account, keeping track of your account—is done by the exchange.
Let me spend a bit more time on one of those functions: providing leverage. If Bitcoin isnt exciting enough for you, you can find an exchange that will let you borrow money to buy more of it. You put in $100, the exchange lends you $900, you get $1,000 worth of Bitcoin. If Bitcoin goes up 10%, you double your money; if Bitcoin goes down 10%, you lose everything. Bitcoin goes up and down by 10% a lot, so this is an exciting way to gamble.
![gambling](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iNOuoyyT6p6c/v0/-1x-1.jpg)
Traditional finance also provides leverage, but its a complex and intermediated system involving brokers and clearinghouses. Crypto exchanges are more integrated, so in many cases a crypto exchange is basically in the business of managing market risk. Say instead of Bitcoin going down 10%, it falls 15%; youre not only down your original $100, but now you *owe* $50. Crypto exchanges have to decide when to make you post collateral—put up more money—to ensure that youre good for your losses and when to liquidate your position so you dont lose more than you can pay back.
A crypto exchange may have customers with big leveraged bets on Bitcoin rising (theyre “long,” in the language of finance) and customers with big leveraged bets against Bitcoin (theyre “short”). If Bitcoin moves too far in one direction too quickly, then the long (or short) customers will be out of money, which means there wont be money to pay back the short (or long) customers on the other side. The exchange has to think about how volatile its assets are, set leverage limits so blowups are unlikely, and monitor leverage levels to ensure no one is in imminent danger of blowing up. If someone *is* likely to blow up, the exchange has to seize their collateral and sell it, ideally in an intelligent way that doesnt destabilize the market too much. And in periods of high volatility the exchange might shut down trading rather than deal with all this. Thats a lot of centralized decision-making.
Bitcoin is good at keeping track of who has Bitcoin. This is technologically interesting and also useful insofar as Bitcoin are a store of wealth. And if Bitcoin were the dominant currency in the world—if it were “digital cash,” and you could use it to buy stuff and the prices of things were set in Bitcoin—then it would be even more useful. But it isnt. You use dollars or pounds or yen or euros to buy stuff, and the price of Bitcoin in dollars (etc.) is very volatile.
One thing that would be cool is if crypto could keep track of *who has dollars*. Then you could get the benefits of crypto (decentralization, smart contracts, skirting the law) along with the benefits of dollars (your bank account isnt incredibly volatile, you can buy a sandwich). A stablecoin is a crypto token thats supposed to always be worth $1.51 If you have a stablecoin, then you have $1 on the blockchain. You hope.
i. Collateralized
The simplest sort of stablecoin is whats sometimes called a “fully backed” stablecoin; popular examples include USDC and Tether. The idea here is:
1. SOME REASONABLY TRUSTWORTHY INSTITUTION SETS UP A STABLECOIN FACTORY TO ISSUE STABLECOINS ON ONE OR MORE POPULAR BLOCKCHAINS.
2. YOU GIVE THE ISSUER $1.
3. IT GIVES YOU BACK ONE STABLECOIN.
4. IT PUTS THE DOLLAR SOMEWHERE SAFE.
5. IF YOU EVER WANT YOUR DOLLAR BACK, YOU GIVE THE ISSUER ONE STABLECOIN, AND IT GIVES YOU BACK THE DOLLAR.52
Your stablecoin lives on some blockchain53 and can be traded and used like any other token on that blockchain. If you have 10,000 dollar stablecoins on the Ethereum blockchain and you want to buy some Ether, you can buy $10,000 worth of Ether with your stablecoins without putting more dollars in. And if you have $10,000 worth of Ether, you can sell it for 10,000 dollar stablecoins. Having 10,000 dollar stablecoins is like having $10,000, but the stablecoins live on the blockchain—in your crypto wallet—rather than in a bank account.
This is useful if, for instance, you dont have a bank account. Or if you dont live in the US, and its hard for you to set up a dollar-denominated bank account. Or if you plan to use the $10,000 to buy more crypto later, and you dont want to move it back and forth between the regular and crypto financial systems. Or if you want to send the $10,000 to a smart contract, which can deal directly with your crypto wallet but which has a hard time talking to a bank. Banks are suspicious of crypto, and crypto is suspicious of banks, so its always a bit painful to connect the crypto system to a bank. “This smart contract will send me dollars if the Jets win this weekend”: no, bad, doesnt work. “This smart contract will send me stablecoins if the Jets win”: yes, fine. Stablecoins are “wrapped” dollars, dollars that live on the blockchain.
More generally, this is useful if you think the crypto financial system is *better* than the traditional one. If sending tokens over a crypto blockchain is faster and cheaper than sending dollars by interbank transfer, then stablecoins are a better way to send dollars. If the blockchain lets you develop interesting derivatives contracts and trading applications in a quick and permissionless way and the traditional financial system doesnt, youll want to use stablecoins instead of regular old dollars.
![a bank teller](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/itIfhNpuXBr0/v0/-1x-1.jpg)
One important point about the collateralized-stablecoin model is that it requires you to trust the issuer. The *dollar-ness* of the stablecoin happens, as it were, entirely off the blockchain. As a crypto matter, what you have is a receipt for $1 from some institution that you trust. If that institution incinerates all the dollars, that receipt shouldnt be worth a dollar.
![Brock Pierce](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iE3HzRe4VKgw/v0/-1x-1.jpg)
You may remember Brock Pierce as a young Gordon Bombay in *D2: The Mighty Ducks*.
One of the longest-running and funniest controversies in crypto is about where Tether, the biggest stablecoin, keeps its money. Tether is replete with colorful characters (the *Mighty Ducks* guy, etc.), and they go around boasting about how transparent they are without actually saying where the money is. They also go around promising to publish an audit but never do it. They probably have the money, [more or less](https://www.bloomberg.com/news/articles/2022-08-19/tether-s-second-quarter-lays-bare-impact-of-terra-collapse#xj4y7vzkg), but they seem to be going out of their way to *seem* untrustworthy. Still, people trust them.
● You can collateralize other things
The collateralized-stablecoin model is a way to *wrap* noncrypto assets and put them on the blockchain. You could imagine all sorts of assets getting wrapped.
For instance, what if you wanted to trade stocks, but in crypto? You might want to do this for reasons similar to why you might want to have dollars, but in crypto. You *like* the crypto system, the smart contracts, the permissionless innovation, the decentralized exchanges, frankly the lack of regulation. But you also like stocks, which represent ownership in productive enterprises and are also a very popular tool for speculation. The crypto system doesnt talk all that well to the stocks system. Your broker is suspicious of crypto, and crypto is suspicious of your broker (less and less so, but still). Putting the stocks on the blockchain lets you trade the things you want (stocks) the way you want (in crypto).
![wrap sandwich](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i6EGtVeDjlnQ/v0/-1x-1.jpg)
Conceptually, one way to do this is that some fairly trustworthy institution buys a bunch of Tesla Inc. stock and holds it in its vault. And then it issues “wrapped Tesla” tokens on some blockchain: Each wTSLA token corresponds to one share of Tesla that the institution has in its vault, and you can trade them on the blockchain exactly as you would Ether.
![wrap sandwich](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i7iEwOYuBg9Y/v0/-1x-1.jpg)
And in fact this exists. FTX, a leading centralized crypto exchange, offers “[tokenized stocks](https://help.ftx.com/hc/en-us/articles/360051229472-Equities)” on the [Solana blockchain](https://www.coindesk.com/markets/2021/06/24/ftx-follows-binances-lead-with-move-into-tokenized-stocks/), though not to US customers; Binance, another leading exchange, offered tokenized stocks for a while but then [stopped](https://www.binance.com/en/support/announcement/3a0304f3ee1c43668959c1b01f610d59). If youre going to try this, youll want to run it by your [local securities regulator](https://www.cnbc.com/2021/07/16/crypto-exchange-binance-halts-stock-tokens-as-regulators-circle.html). Its legally sensitive to find new ways to sell people new, not-quite stocks.
![wrap sandwich](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iqAKYtT7jw.k/v0/-1x-1.jpg)
But if it works its interesting. For a crypto exchange, its a way to keep your retail gamblers gambling on your platform: Someone who wants to bet on Bitcoin and Ether and Tesla stock can do all of it on one crypto exchange.
![wrap sandwich](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iBKqSKE6ICv8/v0/-1x-1.jpg)
More broadly, though, its a way for the crypto financial system to *ingest* the traditional financial system. Have a financial asset? Put it in a box and issue tokens about it. Now its a crypto asset. If the crypto financial system is *good*—if the computer programs, payment rails, and institutional structures of crypto have competitive advantages against the programs, rails, and structures of traditional finance—then some people will prefer to trade their stocks or bonds or other financial assets in the crypto system.
ii. Algorithmic
The fully backed stablecoin model has problems. One is that you might not trust the issuer of a backed stablecoin. Another is that you might not *want* to trust any issuer. An issuer of a fully backed stablecoin is, by necessity, using the US dollar financial system. Its keeping the backing dollars in a bank or in other traditional-finance dollar instruments. It might be subject to the regulatory pressures of that system.
What you want is something thats worth a dollar but exists purely on the blockchain. Can that be done?
● Good algorithmic
Sure! And with a fairly simple and traditional bit of financial engineering.
It starts with leverage, or just borrowing money. Leverage is a way to amplify the risks and returns of betting on crypto: Instead of putting in $100 and buying $100 worth of Bitcoin and making $10 if Bitcoin goes up 10%, I put in $100 and borrow $100 and buy $200 worth of Bitcoin and make $20 if Bitcoin goes up 10%. Or I lose $20 if Bitcoin goes down 10%. Or I lose everything if Bitcoin goes down 50%.
For me, thats a high-risk, high-reward proposition. But what if I borrowed the money from you? What does that proposition look like for you? Well, if Bitcoin goes up 10%, you get back $100: I sell my Bitcoin for $220, give you back $100 and keep the rest. And likewise:
If Bitcoin goes up 20%, you get back $100. (I sell for $240, give you back $100, and keep $140.)
If Bitcoin goes down 20%, you get back $100. (I sell for $160, give you back $100 and keep $60.)
If Bitcoin goes down 49.5%, you get back $100. (I sell for $101, give you back $100 and keep $1.)
Lets stop there, for no particular reason.
At every point that Ive named so far, you get back $100. You put in $100, and you get back $100, no matter what. For me this trade is very risky. (If Bitcoin fell 49.5%, I lost 99%.) For you this trade is very safe. Very stable. What you have is a stablecoin. You put in $100 and get back $100.
This basic idea is called an “algorithmic stablecoin.” You put in $100 and get back a thing thats worth $100, with that value guaranteed by a larger amount of a volatile cryptocurrency. Ive described this as just a direct loan from you to me (a contract), but ordinarily this would be done as a smart contract, a computer program on a blockchain.
Vitalik describes a rudimentary form of this in the original Ethereum white paper, calling it a “hedging contract.” Heres a slightly different example that involves no dollars at all: Say you and I each put 1,000 Ether into a smart contract, and that when we do it, 1,000 Ether is worth $1 million. On some preset maturity date, the contract will send you $1 million worth of Ether, and I will get whatever Ether is left. If Ether doubled in value in that time, that means youll get 500 Ether worth $1 million, and Ill get 1,500 Ether worth $3 million. On the other hand, if Ethers dollar value fell 50%, you get all the Ether in the pool so you get your $1 million back, and I get nothing. You get back $1 million no matter what. The smart contract, though, *never held any dollars at all*. Theres no bank account, no Treasury bills, no trusted central intermediary, but you have a claim with a steady value in US dollars. We have in a way manufactured dollars purely out of crypto.
A few points. First, Im being far too cute here: In my original example, if the price of Bitcoin falls by 51%, my $200 worth of Bitcoin will be worth $98, and I wont have enough money to pay you back. Your supposed stablecoin is worth 98¢.
![Can the price of Bitcoin fall by more than 50%? Oh yes, absolutely; it did that this year.](https://www.bloomberg.com/features/2022-the-crypto-story/svg/BW-CRYPTO-P3-BITCOIN-CHART-DESKTOPB.svg)
Its not easy to manufacture stablecoins out of extremely unstable assets. Your algorithmic stablecoin has some risk of becoming unstable. But you can do a little better than the crude version Ive proposed here. You could have margin calls, for instance, so that if Bitcoin falls by more than 20%, the smart contract sells the remaining Bitcoin to pay you back immediately.54 (Actual algorithmic stablecoins—Dai, the stablecoin of MakerDAO, is a big one—work this way.)
Second, I am omitting *interest*. In the real world, if Im borrowing $100 from you to buy Bitcoin, Im not just paying you back $100; Im paying you back with interest, $101 or whatever. An algorithmic stablecoin—much like a dollar in a bank account—can potentially generate interest.55
Third, note that there are two sides to this trade. Some people want stablecoins and will put money (or Ether, Bitcoin, etc.) into this sort of smart contract to get stablecoins; others want leverage and will borrow money from this sort of smart contract to take leveraged positions in risky crypto assets. There are different appetites for risk, so theres a trade to be done.
![small dog and big dog](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iJgtBfZzitKI/v0/-1x-1.jpg)
Fourth: Do you know what a bank is? Not in crypto, just in the world. Heres what a bank is. Some people want to borrow money to make investments. The main investments are 1) starting or expanding a business and 2) buying real estate. They borrow money from a bank; they get leverage. If their business does well or their houses price goes up, they pay back the money to the bank, with interest. The bank has the *senior claim* on their business or house—if there isnt enough money for everyone, the bank gets paid first. Sometimes the bank loses money, but mostly it gets paid back on most of its loans.
The bank, then, is just a pool of these loans, just a lot of senior claims on a lot of businesses and houses. These loans are called the banks “assets.” Then the bank itself goes and borrows money. A bank with $10 billion of assets—$10 billion of mortgages and business loans—might have $1 billion of its shareholders money (“equity” or, for a bank, “capital”) and borrow the other $9 billion. It borrows the $9 billion from its customers in the form of deposits. A bank deposit is, formally, a loan to the bank; if you deposit $100, the bank owes you that $100. And it uses that $100 to fund loans to businesses and homebuyers.
Wait, though. I said (way, way) earlier that a dollar is just an entry in the banks database. When you have a dollar, what you have is an entry on the books of the bank—that deposit is the dollar. The deposit *is* the dollar, and yet its also the *debt* of the bank. Your entry on the banks database shows both that the bank owes you a dollar and *is* the dollar that you own. Isnt that incoherent? How can the bank owe you the dollar, if you have it already, right there in your account?
![a dollar bill](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i1tuAB8FJ9rs/v0/-1x-1.jpg)
[The modern banking system is a machine](https://www.bloomberg.com/opinion/articles/2021-10-07/matt-levine-s-money-stuff-looking-for-tether-s-money) that takes in risky assets at one end, takes senior claims on them (lending money against those assets, with the right to be paid back first), repeats that move a few times (taking and issuing senior claims on the senior claims56), and spits out *dollars* at the other end. A dollar is distilled from risky assets.
The stablecoin thing is nothing new. Its just *banking*, but banking in a particularly clear way,57 purified in smart contracts on the blockchain.
● Bad algorithmic
To summarize the previous section: If you have a large quantity of risky tokens, you can with a little financial engineering issue a smaller quantity of claims on those tokens and call them stablecoins. But recall also one of the simplest lessons of Bitcoin, which is that you can make up an arbitrary token that trades electronically, and people might pay you money for it. (Worth a shot, no?)
These two insights—you can make up a token and it will be worth money and you can use claims on risky tokens to make a stablecoin—can be combined in a natural way to create a disaster. Heres the disaster:
1. I make up a cryptocurrency. Call it Sharecoin. I list it on exchanges and try to sell it to people for some money. (Maybe Bitcoin or Ether or dollars or Korean won—it doesnt matter.)
2. I make up another cryptocurrency. Call it Dollarcoin. I set up a smart contract saying that one Dollarcoin can always be exchanged for *$1 worth of Sharecoin*. I can do this, because I just made up Sharecoin, and the smart contract can issue any old amount of it. If Sharecoin trades at $20, the smart contract will give you 0.05 Sharecoins per Dollarcoin. If it trades at $0.001, the smart contract will give you 1,000 Sharecoins. It doesnt care; it can make all the Sharecoins it wants.
3. Conversely, if you want Dollarcoins, you buy $1 worth of Sharecoins and deliver them to the smart contract to get back a Dollarcoin.
4. As long as theres *some* price for Sharecoin, the smart contract can issue a dollars worth of Sharecoins for any Dollarcoin that someone brings to exchange.
5. “See, a Dollarcoin should always be worth a dollar,” I say, “through the power of algorithms.”
The flaw in this logic is in Step 4: Theres absolutely no reason for Sharecoin to be worth anything at all—I just made it up!—and so no reason for a Dollarcoin to be worth a dollar. But of course everything in crypto was made up, by somebody, in the recent past, so this objection is not as compelling as you might think. People might believe in this story or just in the general vibe of Sharecoin and Dollarcoin. They might buy Dollarcoin and treat it as worth a dollar, and buy Sharecoin and treat it as a valuable component of a thriving ecosystem.
At some point the process reverses. People start to want dollars rather than Dollarcoins, so some of them sell Dollarcoins for dollars on the open market. This pushes the price of Dollarcoin slightly below $1, perhaps to 99¢. Other people get nervous, so they go to the smart contract —which is supposed to keep the price of a Dollarcoin at $1—and trade Dollarcoins in for $1 worth of Sharecoins. Then they sell those Sharecoins, which pushes down the price of Sharecoin, which makes more people nervous. They trade even more Dollarcoins for Sharecoins and sell those. This pushes the price of Sharecoin lower, which creates more nervousness, which leads to more redemptions at lower Sharecoin prices and even more Sharecoin supply flooding the market. This is a well-known phenomenon in traditional finance (it happens when companies issue debt and commit to paying it back with stock), and it has the technical name “[death spiral](https://www.bloomberg.com/opinion/articles/2021-06-17/titanium-got-crushed).” Its as bad as it sounds.
![historical photo of crowd standing outside bank](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/ieEViEn6g6NE/v0/-1x-1.jpg)
A couple of algorithmic stablecoins have death-spiraled, the most famous one being TerraUSD. Terra was a blockchain ecosystem with a native currency (like our Sharecoin) called Luna and a stablecoin called TerraUSD. Billions of dollars of TerraUSD were issued, backed by algorithmic conversion into $1 worth of Luna. TerraUSD was popular, because stablecoins are popular and also, to be fair, because you could get [20% interest rates on TerraUSD](https://www.bloomberg.com/news/articles/2022-03-23/terra-s-promise-of-20-defi-return-raises-sustainability-concern). The total amount of TerraUSD reached $18.5 billion, the market capitalization of Luna rose above $40 billion, the system all worked, and then it didnt. A [quick death spiral](https://www.bloomberg.com/opinion/articles/2022-05-11/terra-flops) hit in May, and Terra unraveled completely. By the end of the month, TerraUSD was trading below 2¢, zillions of Luna had been issued and were trading at essentially zero, and the whole Terra blockchain had burned to the ground. Terras founder, Do Kwon (colorful character!), was tweeting in September that he wasnt “on the run” from South Korean authorities. [Those authorities responded](https://www.bloomberg.com/news/articles/2022-09-17/luna-and-terra-s-do-kwon-not-in-singapore-local-police-say) that he was “obviously on the run.”
The thing about centralized crypto exchanges is that theyre *centralized*. Broadly speaking, you have to trust the people running the exchange to run it in a good way: not to steal customer money, not to get hacked, not to take advantage of their knowledge of customer orders to trade ahead, not to blow up by allowing too much leverage, etc. Sometimes that trust is misplaced and the exchange does steal the money. Sometimes the exchange is honest, careful, and well-regulated by the responsible national authorities, but still, youre in *crypto*:
![crowded call center](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iMZINbqhDoPQ/v0/-1x-1.jpg)
YOU WANT TO *AVOID* TRUSTING CENTRALIZED INTERMEDIARIES AND NATIONAL REGULATION.
Also, youre in crypto: You want *smart contracts*. A financial-products exchange can be thought of as a computer program. Most stock exchanges long ago got rid of trading floors with human traders and are now just computer servers matching electronic buy and sell orders. Certainly every crypto exchange works like that. A centralized crypto exchange is fully electronic; it has computers that keep ledgers of customer assets and run the programs matching orders and moving assets between customers.
The blockchain is already designed to keep a ledger of customer assets, so why keep your assets on an exchanges ledger? And you can run computer programs on Ethereum or most other modern blockchains: Why not run the exchange programs there?
A venue for trading tokens that isnt a company but is instead a set of smart contracts on a blockchain is called a decentralized exchange, or DEX. And the broader idea—of having a financial system, with lending and derivatives and everything else, that runs as smart contracts on a blockchain—is called decentralized finance, or DeFi.
A few more points of terminology. Decentralized finance is DeFi, so centralized finance—meaning specifically the bits of *crypto* that use centralized trusted intermediaries, mainly exchanges and lenders—is
And I will sometimes refer to DeFi things as protocols. A protocol is a set of smart contracts—the computer programs that run on the blockchain and do stuff—or at least a set of rules for creating them. A decentralized exchange isnt an exchange in the traditional sense: It certainly isnt a building in New York where traders meet in person to shout orders at each other, and it also isnt a data center in New Jersey where an exchange company keeps its computer servers to match orders with each other. Its a protocol, a set of smart contracts that let people move cryptocurrencies around. There might be a company involved, and surely someone is making money somewhere. But even if the company goes away, the smart contracts will keep running as long as the blockchain does.
i. Some background on exchanges and market makers
● CLOB
Heres what an exchange is. People send it orders: “Buy 100 shares at $100,” “Sell 100 shares for $102,” etc. The exchange is, at its heart, a system for matching those orders, finding a buyer for each seller and vice versa. The orders come in at different times. When the exchange gets an order to buy 100 shares at $100, it puts the order on its order book—just an electronic list of orders that havent executed yet. When it gets its next order, to sell 100 shares for $102, it looks at its order book to see if there are any orders to buy 100 shares at $102. Nope, not yet; the $100 buyer doesnt want to pay $102, and the $102 seller doesnt want to accept $100. It puts the sell order on the order book, too. The $100 buy order and the $102 sell order “rest” on the order book. Then another order comes in, to buy 100 shares at $102. The exchange sees in the order book that, aha, yes, theres an order to sell 100 shares at $102. So the matching engine matches the $102 buy and the $102 sell order; they pair off with each other and do their trade. And then the orders are removed from the order book—theyve been filled—and the exchange waits for the next order.
In general, a centralized exchange will have lots of orders resting on its order book at any time. All the resting buy orders will have lower prices than all the resting sell orders: If a buy order has a higher price than a resting sell order, those two orders will pair off and execute with each other. (If I want to pay $103 and youll accept $102, the exchange has found a mutually beneficial trade.) And this way of running an exchange is usually called a central limit order book, or CLOB.
You could certainly build a smart contract to do this on the blockchain: The contract would take orders, keep them on a central limit order book, and execute them against each other. And smart contracts like this do exist. But most DEXes dont work this way.
● Market makers
You may ask: “Where do all these resting orders come from—whos going around thinking up these specific prices they want to pay for a stock or prices they want to sell for?” Ordinary people might not bother with this. If they think a stock is a good investment, they will often send in *market orders*, just: “Buy from whoevers selling at whatever the best price is.”
Resting orders come mainly from professional investors called market makers, who help make fast and efficient trading possible. Their job is to sell stock or crypto or whatever to people who want to buy, and buy from people who want to sell, and collect the “spread,” the difference between their bid (or buying) price and their offer (or selling) price. If you send a market order to buy, you buy immediately—but you pay a bit of money (the spread) to the market maker for that service. The market maker, meanwhile, is in the business of providing that service and collecting that spread; its not really betting that prices will go up or down.
In modern stock and crypto markets, market makers are *also* largely computer programs, and their programs are pretty simple:58
1. POST A BID AND AN OFFER FOR A STOCK.
2. IF SOMEONE SELLS YOU STOCK AT YOUR BID PRICE, LOWER YOUR BID AND OFFER SLIGHTLY: IF SOMEONE IMMEDIATELY “HITS YOUR BID,” THEN YOU MIGHT WORRY THAT YOUR BID WAS ACTUALLY TOO HIGH AND YOU COULDVE PAID LESS. ANYWAY, NOW YOU OWN SOME STOCK AND WANT TO GET RID OF IT, SO YOU MIGHT AS WELL PUT IT ON SALE.
3. IF SOMEONE BUYS STOCK FROM YOU AT YOUR OFFER PRICE, RAISE YOUR BID AND OFFER SLIGHTLY, FOR SIMILAR REASONS.
4. KEEP DOING THIS. THE SYSTEM IS SELF-CORRECTING: THE MORE STOCK PEOPLE WANT TO SELL YOU, THE LESS YOU PAY THEM FOR IT; THE MORE THEY WANT TO BUY FROM YOU, THE MORE YOU CHARGE THEM. HOPEFULLY IT ALL BALANCES OUT, AND YOU END UP *FLAT*; YOU SELL ALL THE STOCK YOU BOUGHT AND BUY ALL THE STOCK YOU SOLD. AND YOU COLLECT THE SPREAD ALONG THE WAY.
5. ALSO, YOURE PROBABLY KEEPING AN EYE ON GENERAL MARKET CONDITIONS, AND RAISING AND LOWERING YOUR BIDS AND OFFERS BASED ON WHATS HAPPENING IN OTHER MARKETS.
Market makers in US stocks are often called high-frequency traders, or sometimes even flash boys, and part of what that means is that theyre constantly changing the prices of their orders as their information changes. And the result is that, when you want to buy a share of stock, you can send in a market order, and you will quickly trade with a market maker at a price thats pretty much the market price, one thats updated continuously to reflect supply and demand and all available information.
● Nope!
This [doesnt work on the blockchain](https://twitter.com/FabiusMercurius/status/1452349324466089984). The problem with the blockchain is that its a slow computer: Ethereum runs computer programs by sending them to thousands of nodes to confirm transactions, and that takes time. You wouldnt want to run a self-driving car on the Ethereum Virtual Machine. It turns out you wouldnt want to run a high-frequency trading platform there either.
![do not enter sign](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iSttaFMCmz.Y/v0/-1x-1.jpg)
Centralized exchanges—in traditional finance and in crypto—have lots of very fast computers with very fast connections that allow market makers to constantly update their prices in response to trades and new information. Traders build fancy fiber-optic lines to get their orders to the exchange a few milliseconds faster than the competition. Speed matters, and they update their orders many times a second. This is harder when the computers are on the blockchain; its also more expensive. Every action in Ethereum requires gas fees, and sending a message to a smart contract saying, “Cancel my buy order at $100.001 and put in a new order at $100.002,” would use Ethereums computer power and cost gas.
It turns out this is nearly fatal for CLOB market-making in Ethereum. “Market making is very expensive,” [Vitalik Buterin wrote](https://www.reddit.com/r/ethereum/comments/55m04x/lets_run_onchain_decentralized_exchanges_the_way/), “as creating an order and removing an order both take gas fees, even if the orders are never finalized.’”
ii. Automated market makers
● Mechanics
So Vitalik proposed a different idea. Here it is:
> The mechanism would be a smart contract that holds A tokens of type T1, and B tokens of type T2, and maintains the invariant that A \* B = k for some constant k (in the version where people can invest, k can change, but only during investment/withdrawal transactions, NOT trades). Anyone can buy or sell by selecting a new point on the xy=k curve, and supplying the missing A tokens and in exchange receiving the extra B tokens (or vice versa). The “marginal price” is simply the implicit derivative of the curve xy=k, or y/x.
Thats just a comment that he wrote on Reddit; later a whole business model grew out of it. Heres the simplified version. I decide to be a market maker in some token pair, say Ethereum and USDC (a dollar-denominated stablecoin). Lets say one Ether currently trades for 1,600 USDC ($1,600). I set up a smart contract—again, thats a computer program on the blockchain, but in this case it might be easier to think of it as a pot of money, *managed* by the computer program. I can deposit both Ether and USDC into this pot. Anyone who wants to buy Ether (with USDC) or sell Ether (for USDC) can come to my smart contract and make that trade with it, and the contract will adjust its prices to reflect supply and demand.
But it will do it in an absurdly simple manner that doesnt require much in the way of computation or updating prices. It will just try to keep one number constant.
When I set up the contract, I deposited *equal values* of Ether and USDC. If one Ether was worth 1,600 USDC, I put in 100 Ether and 160,000 USDC (each set of tokens worth $160,000). The program *multiplies* those two numbers: 100 times 160,000 is 16 million. And then it will just hold that product constant. That is, the number of Ether multiplied by the number of USDC will always be 16 million.
A trader will try to buy, say, 10 Ether. That would leave 90 Ether in the fund. Sixteen million divided by 90 is 177,777.78. The pot has 160,000 USDC now, so it will need 17,777.78 more USDC to keep the product constant. Thats what my smart contract charges. The trader has to pay me 17,777.78 USDC—1,777.778 USDC per Ether—to do this trade. Someone wants to buy Ether from my smart contract, so my smart contract automatically raises its price for Ether. But it doesnt have to go around constantly updating prices and posting new prices on central limit order books: It just advertises its constant product, and that updates prices on its own.59 Its an automated market maker (AMM).
Thats cool! I dont know, its cool. This isnt a thing that really exists in traditional finance. It was developed, almost by accident, as a workaround to a novel *problem*—that the computers are too expensive—in decentralized finance.60
● LPs
In my description above, I assume that I want to be a market maker in some currency pair, so I set up a smart contract to do it on my own. In reality, the way DEXes normally work is that AMM smart contracts *pool* liquidity. If you want to be a market maker in stocks, it helps to be a large financial institution. In crypto, anyone who wants to be a market maker in a pair of tokens can contribute that pair to a liquidity pool (and get back “liquidity tokens” representing their stake in that pool); theyre called “liquidity providers.” They collect fees in crypto for providing liquidity in the pool.
Theres a risk, though. In general, if you provide liquidity in an asset (in DeFi or centralized finance, in crypto or otherwise), and the asset price steadily goes down, youll find yourself buying more and more of it, and it will be worth less and less. In an AMM liquidity pool, if the price of one token keeps going up against the other token, the pool will have more and more of the token worth less and less. This is a risk that all market makers take; in traditional finance its sometimes called “adverse selection.”
In DeFi, though, it delights in the name “impermanent loss.” I dont know why, but I love it. Theres nothing particularly impermanent about it—unless the price bounces back, of course—but thats what its called.
![historical photo of kids playing at pool](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iriqlY2hWkMQ/v0/-1x-1.jpg)
CRYPTO IS SO OPTIMISTIC.
HOW CAN YOU NOT BE CHARMED?
iii. Lending
Exchanges—providing liquidity between different tokens—are a key function of DeFi, but there are others. One important function is lending.
● Secured
Most DeFi lending is what you would call, in traditional finance, *margin lending*. You have a volatile asset (Ether, say), and you want to borrow some money (a dollarlike USDC stablecoin, say), using that volatile asset as collateral. Perhaps youre borrowing that money to buy more volatile assets, or perhaps youre borrowing against your Ether to buy a sandwich or a house without selling your Ether.
If you went to a broker for a margin loan against $100 of stock, the broker might lend you $50. Its “overcollateralized,” because the stock is worth more than the loan, which makes the broker feel safe. If the stock then fell to $70, the broker might send you a margin call: “Pay down $15 of this loan, or Ill liquidate your stock.” That way its less likely the broker will end up holding the bag for your loss if the stock keeps falling. If you failed to meet the margin call, the broker would sell your stock, clear, say, $65 for it, keep enough money to repay the loan, and give you whats left.
This is pretty straightforward to automate with smart contracts. There are robust DeFi lending systems, such as Compound: Lenders put up tokens and earn interest, borrowers borrow tokens (overcollateralized by other tokens) and pay interest, and automatic liquidation provisions make sure that if the value of the collateral goes down, its sold to pay back the loans.
● Unsecured
Whats much harder in DeFi are the main businesses of traditional finance: *unsecured* lending and lending secured by physical assets (such as houses). DeFi is good at lending crypto secured by crypto. The collateral lives on the blockchain; the loan lives on the blockchain; theyre connected by smart contracts on the blockchain. Its all pretty neat.
But this sort of lending crypto against crypto doesnt *do* much. Its mostly useful for crypto speculation—you lend Ether, get USDC, and use it to buy even more Ether. By contrast, a mortgage lets you buy a house and then pay for it with your future income. An unsecured business loan helps you build a business and then pay off the loan with the businesss future earnings.
Finance, at its heart, is about moving future wealth into the present by borrowing, or moving present wealth into the future by saving.
There are deep philosophical reasons that crypto is bad at this. An unsecured loan is essentially about *trust*. Its about the lender trusting that shell be repaid not out of a pool of collateral but out of the borrowers future income. She has to trust that the borrower will have future income and that he will pay.
Relatedly, an unsecured loan requires *identity*. You need to know whos borrowing the money, what their payment history looks like, what their income is. The default approach in much of crypto is pseudonymity: Anyone can set up any number of crypto wallets or Bitcoin account numbers, and theyre generally not tied to a name. If you borrow money against crypto collateral, all your lender needs to know is that the collateral is on the blockchain. If you borrow money against your future income, your lender needs to know who you are.
![McLovin in Superbad](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/irozNfdLO.TA/v0/-1x-1.jpg)
That said, theres nothing in principle to *prevent* unsecured lending in DeFi, and there are projects such as [Goldfinch](https://medium.com/goldfinch-fi/introducing-goldfinch-crypto-loans-without-collateral-fc0cad9d13e) that do it. You get together a smart contract, where people deposit money in exchange for tokens, and a DAO, a decentralized autonomous organization that controls the money. The tokens give them a share in the DAOs profits and the right to vote on who gets the money. People propose potential borrowers, token holders consider them and vote, and if the holders vote yes then they make a loan. As with any DAO, the token holders can get together in a chat room and consider “off-chain” information if they want. (They could make the borrower send in a drivers license and two bank statements.) You can build some incentive mechanism to punish members for proposing borrowers who default and reward them for proposing good borrowers. Decentralized finance is made up of smart contracts, but its also made up of people, and if they want to do unsecured lending, they can.
Weve talked about web3 as a source of online reputation, about “soulbound” tokens that could be used to verify a persons actions, connections, and characteristics. A soul, in this terminology, is something close to a credit report: Its a list of stuff that a person has done that should make you trust them, a decentralized and blockchained source of reputation information. The right assortment of degrees and endorsements might make you feel good enough about a person—or rather, a “soul,” an address on the blockchain—that you give them an unsecured loan. And then I suppose if they default you can take their soul.
iv. Tokenomics of DeFi
The basic mechanism of DeFi is that you put some tokens up in a smart contract to generate fees or interest. You put your tokens in an automated market-making contract to get liquidity-provider fees, you put your tokens in a lending protocol to get interest, etc. Generally this is referred to as “locking” your tokens—because theyre being used for lending or whatever, you cant get them back for some period—and people often talk about DeFi protocols in terms of their TVL, or “total value locked.” Mechanically, the way this generally works is that you send your tokens to the smart contract, and it sends you back other tokens that are, basically, receipts for the tokens you locked up. Instead of having Ether and USDC, you have liquidity-provider tokens saying youve put some Ether and USDC into a smart contract.
What do you do with those liquidity-provider tokens? Well, in theory, you hold them until you want your locked tokens back, and then you hand them in and get back the underlying tokens. The liquidity-provider tokens are just a receipt. But at some point people realized that those tokens represent something of value; we can do something with them. If you have a token representing a receipt on some Ether that you locked into a smart contract, then thats *almost* as good as having some Ether, and someone might give you some money for it. Now you can borrow against those receipt tokens in DeFi, too.
Everything is like this. In proof-of-stake Ethereum, you can stake Ether to earn staking rewards. A protocol called Lido runs a big staking pool. If you stake your Ether with Lido, it will give you back a token called [stETH](https://help.lido.fi/en/articles/5230610-what-is-steth), basically a receipt for your staked Ether. The Ether that you staked with Lido will earn staking rewards, while the stETH that you get back can be sold or invested in other DeFi protocols to earn more money.
More broadly, the business of DeFi is about reusing tokens as much as possible. You have some tokens, you lock them up in a smart contract that does a thing and pays you a return, the smart contract gives you some sort of receipt token, and you turn around and lock up those receipt tokens in another smart contract that does another thing and pays you some more. People talk about “yield farming,” the process of bouncing between DeFi protocols to try to earn the maximum yield, reusing tokens, and getting paid in the protocols own tokens to make as much money as possible.
![agricultural illustration](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i708ERa0lHHg/v0/-1x-1.jpg)
This can create a self-reinforcing cycle, by which I kind of mean a Ponzi. It goes like this:
1\. Theres a protocol that does some stuff with Ether or stablecoins or whatever.
2\. If you put your Ether or stablecoins or whatever into the protocol (for lending or liquidity provision or whatever), it will give you some of its own tokens. This is no problem; it can print those tokens for free.
3\. If you put *those* tokens back into the protocol, locking them up rather than selling them, it will give you even more of those tokens. Itll pay you 10% interest every hour, if you want. Who cares, the tokens are free.
4\. “Buy this token, it pays 10% interest every hour,” the promoters of the protocol can say, more or less accurately. They can quote an APY—an annual percentage yield, a normal finance concept thats much beloved in DeFi yield farming—with an enormous number of digits, and people will get very excited.
5\. So theyll buy the token, and it will go up. Or theyll put their Ether or stablecoins into the protocol to earn its tokens, and the protocols total value locked will go up.
6\. “Look at this protocol, its TVL is huge and rising, its token has doubled in price this week,” people will say, and theyll buy more of it.
7\. People keep getting paid comical interest rates \*in the token\*, which is fine as long as the token price keeps going up, or stays flat, or goes down at a slower rate than the interest rate. Even though the market is being flooded with tokens, people still seem to be making money, and will do so as long as new money comes in.
8\. The amount of tokens issued rises inexorably toward infinity, the amount of new money coming in does not, and tragedy ensues.
The greatest of these protocols is probably OlympusDAO, which is run by a pseudonymous founder called Zeus (colorful character!), has a group of loyal investors called OHMies, and at its peak offered yields of 7,000% and was worth $3 billion, according to [a *CoinDesk* article](https://www.coindesk.com/policy/2021/12/05/olympus-dao-might-be-the-future-of-money-or-it-might-be-a-ponzi/) titled “Olympus DAO Might Be the Future of Money (or It Might Be a Ponzi).”61 Since then its [lost about 99% of its value](https://coinmarketcap.com/currencies/olympus/), so theres your answer.
![crumbling statue head](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/izypaxe3bYa0/v0/-1x-1.jpg)
Olympus became particularly famous for the “(3, 3)” meme, based on the notation of game theory. The idea is that the payoff in a two-player game can be written as “(X, Y),” where X is what I get, and Y is what you get. These outcomes could be dollars, but often theyre written as abstract utility numbers: A payoff of (3, 3) is better for both of us than a payoff of (2, -1), without worrying too much about what those numbers mean. Olympuss pitch was that if everybody buys OHM and locks it up, then everybodys payoff will be good—i.e., (3, 3)—while if everybody does bad things like *sell* their OHM, then everybodys payoff will be (-3, -3). (Those numbers are abstract and unitless, and actually the payoff was (-99%, -99%).)
This, of course, exactly describes any Ponzi: As long as people keep investing new money and not withdrawing it, everyone will get richer (on paper), but it will unravel when people start taking their money out. Olympus always struck me as charmingly forthright about what it was up to. Its the future of money, because as long as everyone keeps buying, it will keep going up! People have tried that one before.
![painting of man with head in hand](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iamO_YbFW340/v0/-1x-1.jpg)
v. Some arbitrages
In traditional finance, people devote their careers to finding arbitrages, circumstances in which they can buy something at a low price and instantly sell the same thing at a high price. This is hard to do, because traditional finance is very competitive, and people arent regularly leaving $20 bills on the sidewalk. Even if you think youve spotted an arbitrage—the same thing trading at different prices in different places—you have to worry about some legal or operational reason that you cant actually move between those places. (Maybe theres a 5% tax to move the stock offshore. Maybe short selling isnt allowed, etc.)
Most of what people call arbitrage in traditional finance is buying one thing at a low price, simultaneously selling a slightly different thing at a higher price, and hoping they turn out to be the same thing. Or buying one thing at a low price, selling the same thing a bit later, and hoping it turns out to be at a higher price.
Meanwhile, decentralized finance is new enough that pricing anomalies exist, but efficient enough that everything happens visibly on a virtual computer running public code, so you can reliably exploit them. There are magical possibilities.
● Flash loans
Lets say youre a smart young person and you discover an arbitrage. Stock XYZ is trading at $10 on Exchange A and $11 on Exchange B. You can buy it on Exchange A for $10 and sell it on Exchange B for $11, making an easy $1 profit.
Thats fine, now you have $1. But you want to buy 10 million shares on Exchange A for $100 million and sell 10 million on Exchange B for $110 million. Then you would have $10 million, which is much more worth doing.
The only problem with this plan is, while youre a smart young person, you dont have $100 million. Why would you?
In financial theory the solution is simple: You borrow the $100 million at the market rate of interest, buy the stock, sell it, pay back a little interest, and keep your profits. In practice no one is going to lend you $100 million. I mean, if you really have found a perfect arbitrage, maybe youll be able to raise $100 million. You can work your connections, cold-call some hedge funds, maybe get some meetings where you present your strategy and say, “See, its a perfect arbitrage. I just need $100 million. Are you in?” And theyll just do the strategy and leave you out. Maybe theyll pay you a small finders fee.
Or you could start small—do your arbitrage for $1,000, make $100, do it again for $1,100, etc.—until you have a huge bankroll, but thats not great either. The longer it takes you, the more likely it is that the clever arbitrage youve spotted will go away. In particular, the more you *do* the trade, the more likely someone else is to notice and do it in big size and make the arbitrage go away.
In crypto finance the situation is different. If, say, you spot Ether trading at two different prices on different decentralized exchanges, you can just write a program that does the following:
1. Borrows $100 million from some decentralized lending protocol, [such as Aave](https://docs.aave.com/faq/flash-loans)
2. Uses the $100 million to buy a token on Decentralized Exchange A
3. Sells the token on Decentralized Exchange B for $110 million
4. Returns the $100 million to the lending protocol (plus a small fee)
5. Sends the leftover $10 million to you …
6. *… all in the same transaction that executes all at once.*
The lender in Step 1 can make the return in Step 4 a *condition* of the loan; the loan and the payback occur simultaneously, in the same computer program executing in the same block of the blockchain. As far as the lending protocol is concerned, theres no credit risk: If any of the intermediate steps fail—if it turns out youre wrong about the arbitrage, and you cant sell the token for more than you paid for it, etc.—then the whole thing never happens, and the loan isnt made. The lending protocol isnt evaluating your creditworthiness, your résumé, or your track record as an investor. Its just making sure that the code works.
This is clever and neat and feels like a good way to build a financial system. Its an egalitarian, decentralized, permissionless, computerized way for anyone who spots an arbitrage to be able to exploit and close it. It should make markets more efficient and prices more accurate.
The problem is, in crypto, “an arbitrage” often means “a mistake in a smart contract.”62 Somebody writes some contract that has some bug that occasionally lets a user put in one token and get back two. Then somebody notices and writes a program to use flash loans to put in 1 billion tokens and get back 2 billion tokens and blow up the smart contract entirely. People sometimes leave money lying around in crypto, and crypto has built very efficient ways for other people to [take their money](https://www.bloomberg.com/news/features/2022-05-19/crypto-platform-hack-rocks-blockchain-community). Its not clear that *that* is a good way to build a financial system.
![$20 bill on street](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iGT6oVXfcQxs/v0/-1x-1.jpg)
● MEV
It gets stranger. Lets say you notice that a token is trading at $10 on Decentralized Exchange A and $11 on Decentralized Exchange B. So you send an order to Exchange A to buy 1,000 tokens for $10,000 and a simultaneous order to sell 1,000 tokens for $11,000. What happens to those orders?
In the US stock market, [whole books](https://www.goodreads.com/book/show/24724602-flash-boys) have been written about that question. People get really mad about it. Your order goes to your broker, who routes it to different exchanges at different times through different pipes. High-frequency electronic traders who see your order execute on one exchange might “race ahead” to another exchange to push up the prices. There are controversies about “co-location,” where the high-frequency traders pay fees to the stock exchanges to keep their computers in the same room as the exchanges computers, so they can get a tiny speed advantage by connecting to the exchange through a fairly short wire.
In crypto the answer is different. Its easiest to understand if you start with how trades worked on Ethereum, before the switch to proof of stake. When you made a trade, your transaction would be broadcast to the entire network and included in the list of transactions that miners were working on executing but that hadnt yet made it into a block.
When a block was finalized, miners would include your transaction in the block. But the miners decided which transactions got included in a block and in what order, and they also earned gas fees for executing transactions. Users could specify how much they wanted to pay for gas, and transactions with higher gas fees were usually prioritized.63 This created a trade:
1. You find an arbitrage and send some orders to decentralized exchanges to do that arbitrage.
2. I see those orders on the network and think, “Hey, thats a good trade.”
3. I send *the same orders* to the exchanges to do the same transaction.
4. I pay a higher gas fee to get priority over you, so that I can do the trade ahead of you.
5. By the time *you* get to do the trade, its no longer available. I bought everything available at the good price. Ha ha.
![superheros](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/in.r.VyHeeos/v0/-1x-1.jpg)
NOT these Flash boys.
This is usually [called MEV](https://ethereum.org/en/developers/docs/mev/), which originally stood for “miner-extractable value,” because one winner in this scenario was the miner who got to charge higher gas prices to people who wanted to front-run trades or avoid getting front-run. Its the subject of a [2019 paper](https://arxiv.org/pdf/1904.05234.pdf), by Philip Daian et al., titled “Flash Boys 2.0,” a reference to the high-frequency traders in US stock markets who purportedly race ahead of other traders orders to extract value from them.
Rather than *solve* this concern about traditional markets, crypto *made it explicit*: Time priority was subject to an explicit “gas auction,” where whoever paid the most to the transaction orderers got to go first. Sure, yes, in crypto you could get front-run all the time by more sophisticated electronic traders, but in a transparent and decentralized way.
As Ethereum moved to proof of stake, MEV was rebranded “maximal extractable value.” Theres still money to be squeezed from traders by the people maintaining the network, but the mechanics have changed. In todays Ethereum, theres a division of labor between block builders (who compile and order transactions) and validators (the replacement for miners, who do the proof-of-stake work to make blocks official), and if youre doing arbitrages you can send your transactions privately to block builders. You can still pay for speed and priority, but you cant see everyone elses trades to front-run them.
In 2008, Satoshi Nakamoto invented Bitcoin. One thing that seems to have motivated him was a distrust of banks and financial intermediaries. This was understandable, because it was 2008. The modern banking system was at a low ebb. Banks had taken risks that few people understood and ended up losing tons of money on supposedly safe investments. High levels of leverage in the banking system—and in the more opaque and less regulated “shadow banking” system—made those systems fragile; a bank that borrowed $30 for every $1 of shareholders equity would go bust if the value of its assets fell 4%.
The high leverage and lack of transparency caused contagion. An assets price would fall, the highly leveraged banks and funds that held it would get margin calls, and theyd have to sell whatever they had on hand. That would cause more prices to fall, which would lead to more margin calls, which would bankrupt some of the banks and funds, which would lead to more fire sales and more price drops. Meanwhile, the lenders to those banks and funds, who thought their money was safe, would have losses; many were also highly leveraged and might go bust. All of this was opaque enough that even banks and funds that *hadnt* taken big risks or lost a lot of money were treated with suspicion by lenders, which could cause them to fail, too. Ultimately the banking system was bailed out by massive infusions of money from central banks.
![Hank Paulson, Ben Bernanke, Sheila Bair](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i2Z3LJ0sHBhQ/v0/-1x-1.jpg)
Satoshi didnt like it, and he built a new payment mechanism that escaped the need to trust banks. It was irreversible and decentralized: Everyone was responsible for their own mistakes; no one could be bailed out by central banks printing money. It was transparent: Every transaction was recorded on the blockchain; there were no hidden chains of leverage.
In a deep sense it wasnt built on debt at all. To some Bitcoiners, the central sin of the banking system is that every bank deposit is a liability—its a debt, payable on demand, from the bank to its depositors—and so every dollar that you keep in the bank *necessarily* adds to the leverage of the system.64 Dollars *are* *debt*, and debt got kind of a bad rap after 2008. Meanwhile, Bitcoin are *not debt*. Theyre just Bitcoin. They exist in themselves, on the blockchain, rather than being liabilities of banks.
In early 2009, when Satoshi mined Bitcoins genesis block, this message resonated with a lot of people. A new financial system with transparent and irreversible transactions, with no special power for governments or big banks, had an appeal.
Over time, though, there was another, much more obvious appeal to Bitcoin. Its price kept going up. If you bought a Bitcoin for $100, you could soon sell it for $1,000. This got a lot of people very interested in crypto, not for philosophical or monetary-structure reasons but because getting rich is nice.
Many of these people came from traditional finance, because they saw that crypto finance was fun, it was wide open, it allowed for permissionless innovation, and everyone was getting rich.
![](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i8JC3EaIEQF0/v0/-1x-1.jpg)
These people—the people who left TradFi for crypto because the money was better—didnt necessarily have strong philosophical commitments to all that Satoshi stuff. They werent like, “Leverage is bad, banks are evil, monetary soundness is what matters.” Some came from banks. They were there to make money. One way to make money is by finding good trades, finding cheap ways to borrow money, and then borrowing as much as possible to put into those trades.
![Bloomberg Businessweek cover](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iFdXTQl6ujD0/v0/-1x-1.jpg)
Back in the ~$850 halcyon days.
And so somehow crypto had itself a 2008! In 2022 the crypto financial system rediscovered what the traditional system had discovered in 2008. It was honestly kind of impressive.
i. Terra
In May 2022, youll recall, the algorithmic stablecoin TerraUSD collapsed. If you had money in Terra/Luna, odds are that you lost roughly all of it. Many of the people who lost money were regular retail savers whod been suckered by TerraUSDs promises of stability (and of a safe 20% interest rate) or regular retail cryptocurrency investors who speculated on Luna and lost. But not all of them.
![Kyle Davies and Su Zhu](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/ieJYERyPC3I8/v0/-1x-1.jpg)
Kyle Davies and Su Zhu.
One victim of the Terra collapse was a hedge fund called [Three Arrows Capital](https://www.bloomberg.com/news/features/2022-07-13/how-crypto-hedge-fund-three-arrows-capital-fell-apart-3ac), run by two former Credit Suisse Group AG currency traders. (Colorful characters, and also former TradFi guys.) “Speaking from an undisclosed location” in July, [3ACs founders explained to Bloomberg News](https://www.bloomberg.com/news/articles/2022-07-22/three-arrows-founders-en-route-to-dubai-describe-ltcm-moment) that what theyd “failed to realize was that Luna was capable of falling to effective zero in a matter of days and that this would catalyze a credit squeeze across the industry that would put significant pressure on all of our illiquid positions.”
Meanwhile, the Federal Reserve was raising rates, and speculative assets generally were losing value. It turns out that crypto is basically a speculative asset and that its not particularly a hedge for stock market volatility. Everything in crypto went down. Bitcoin was worth more than $67,000 at the peak in October 2021; it fell below $20,000 in June 2022. Ether went from $4,800 to less than $1,000. The [total market value of all cryptocurrencies](https://coinmarketcap.com/charts/) fell from about $3 trillion in late 2021 to about $1 trillion in June 2022. Two-thirds of all crypto wealth just vanished.
Thats just a very traditional story, isnt it? Leveraged hedge funds piled into crowded trades that seemed, on the basis of a fairly short series of historical data, to be safe. This made the trades unsafe, so the hedge funds lost money. So their lenders sent them margin calls. So they were forced to sell off other, better assets—assets that were more liquid and could be sold to meet the margin calls—which made those better assets bad, too. “In a crisis, correlations go to 1,” traders say. Losses on bad trades force leveraged hedge funds to sell good assets, and so everything goes down at once.
![rugby scrum](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iEAtYvAcvU2g/v0/-1x-1.jpg)
ii. Contagion
3AC was a leveraged hedge fund. When it blew up, the people who loaned it money didnt get their money back. 3AC went into a complicated cross-border insolvency process that will presumably *eventually* recover some money for its creditors, but theyll lose at least some of their money, and it will take a while to get back the rest. Who are these creditors?
Well! A little of everyone, really. Documents filed in 3ACs [insolvency process](https://www.docdroid.net/xKIqrjq/20220709-3ac-bvi-liquidation-recognition-1st-affidavit-of-russell-crumpler-filed-pdf) reveal that the hedge fund was borrowing from DeFi platforms but also from an assortment of big-name centralized, or CeFi, crypto lenders, borrowing platforms, and exchanges.
The DeFi platforms mostly did fine: They had collateral, they had automatic liquidation mechanisms, they liquidated the collateral, and they got their money back. The centralized lenders did less well. It turns out a lot were less strict about demanding collateral than you might have wanted. 3AC was one of the biggest and best-known hedge funds in crypto. Working with 3AC was a stamp of approval for many lending platforms. It was prestigious to say, “Our customers include Three Arrows.” Also, 3AC was viewed as a smart fund, doing clever low-volatility arbitrage trades with good risk management rather than taking wild gambles. So if 3AC came to a lending platform and said, “Hey, wed like to borrow $500 million unsecured,” the platform might say yes.
Oh boy, did they. Voyager Digital, a crypto brokerage that let customers buy, sell, borrow, and lend crypto, is a public company listed in Canada. It had $2.3 billion of assets at the end of June, about [$650 million of which](https://www.bloomberg.com/opinion/articles/2022-07-06/voyager-has-some-tokens) was unsecured loans of USDC and Bitcoin to 3AC. Oops! It went bankrupt, too.
Celsius Network is the same basic idea but worse. It offered customers willing to lend out their crypto up to 18% interest on deposits, with pretty vague descriptions of how it earned that yield. CEO Alex Mashinsky (colorful character) once explained to [*Bloomberg Businessweek*](https://www.bloomberg.com/news/articles/2022-01-27/celsius-s-18-yields-on-crypto-are-tempting-and-drawing-scrutiny#xj4y7vzkg) that its ridiculous that banks take deposits, use them to make loans, and then *dont* pay 18% interest. “Somebody is lying,” Mashinsky said. “Either the bank is lying or Celsius is lying.” Only one possible answer! Celsius had also loaned 3AC money, though that was the least of its problems, and it was in some of the same trades as 3AC, which blew up when 3AC did. It also went bankrupt.
The [leverage of these platforms](https://www.bloomberg.com/opinion/articles/2022-06-29/crypto-loves-its-shadow-banks) is pretty astonishing. Celsius was levered about 19 to 1: It had almost $95 of debt (mostly customer deposits) and about $5 of equity for every $100 of assets. Voyager was levered 23 to 1. A fairly small loss could wipe it out entirely, and did. That some banks were levered 30 to 1 going into the 2008 financial crisis became a matter of intense scandal, and post-crisis reforms require much higher capital levels for banks. Also, banks mostly invest in mortgages and stuff! These guys were investing in crypto loans, hugely volatile stuff with nothing in the way of long-term, through-the-cycle history! And they were doing it with 5% capital ratios.
iii. Non-contagion
In many ways this looks like 2008. But its striking how *little* effect the loss of $2 trillion of crypto wealth had on anything else. The 2008 crisis in the banking and shadow banking system led to a global recession, a foreclosure crisis, and real political instability. The 2022 crisis in crypto seems to have been pretty walled-off from real-world effects. Two trillion dollars of market capitalization were lost without much of a visible impact outside crypto.
![someone leaving office carrying box](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iRorvEyk1MN8/v0/-1x-1.jpg)
Why? Part of the answer is about who lost money and how they thought of the money they lost. A lot of people who put money into crypto were using their gambling money, and when their bets didnt pay off, they thought, “Ah, well, that was fun, too bad.” Almost everything about the world of crypto screams “high risk” to anyone who knows at all what to look out for. And so, if you do know what to look for, you take your crypto risks with money that you can afford to lose and in ways that account for the risks. You dont take your life savings, lever them up 10 to 1, and invest everything in Dogecoin.
The great lesson of 2008 is that the real systemic risk is in the *safest* assets. The problem isnt banks and investors buying insane risky securities that promise 50% returns and then go to zero. The problem is banks and investors buying AAA rated bonds that promise an extra 0.03% of yield and borrowing 95% of the money they use to buy those bonds—then finding out those securities shouldnt have been rated AAA. People invest money they cant afford to lose—and often money they borrowed—in safe assets, and when those assets lose money, the system breaks.
By 2022 the crypto financial system was working on creating safe assets. Thats what Celsius and Voyager and TerraUSD promised, safe and stable ways to earn high returns without a lot of volatility, but in crypto. Some people were taken in by those promises and invested their life savings; some hedge funds bet on those promises and levered up those bets. But mostly, look, the guy who promises 18% yields and says, “Either the bank is lying or Celsius is lying” isnt going to persuade *that* many people to entrust him with their life savings.
Part of the answer, though, is about the traditional financial system. Traditional big financial companies *have* been dipping their toe into crypto, but for the most part the traditional and crypto financial systems have stayed pretty separate. You dont hear a lot about *banks* keeping 20% of their assets in Bitcoin, and in fact banking regulators [have been rather stern](https://www.bloomberg.com/opinion/articles/2021-06-10/maybe-gamestop-is-good-now?sref=1kJVNqnU) about letting banks own crypto. So when crypto prices collapsed, banks and other financial institutions werent particularly harmed.
This matters a lot. If you want to buy a house or open a store, you go to a bank for a loan. When banks are in crisis, as they were in 2008, they will be less likely to lend you money. So you wont buy a house or open a store. There will be less credit, less economic activity, less growth in the real economy. Governments bailed out banks in 2008, not because they love bankers but because banks matter for the rest of the economy.
The crypto financial system is very fun and cool and has invented a lot of interesting stuff. But its mostly not where people go to get money to buy a house or open a store. Bitcoin and Ethereum and DeFi could all vanish tomorrow without a trace, and most businesses that make stuff in the physical world would be just fine.
## IV
Trust, Money, Community
Let me tell a couple of stories about crypto and society.
One story goes like this. We live in a world of trust. That trust pervades everything we do. Were spoiled; the institutions we deal with every day are trustworthy. Not all of them, not all the time, not in every way, but quite a lot of them to a high degree. We put money in the bank, and when we go to take it out, its there.
Crypto—Satoshi Nakamoto and his disciples—said:
![No, No, No. Trust is bad. Don't trust your bank. Use immutable code. Verify every transaction for yourself, or download open-source code and verify that it works correctly, and then use it to verify every transaction for yourself, or at least use a network in which that's possible and in which economic incentives demonstrably make it likely that it will happen. And do all of this in a system that's resistant to changes, that can't be controlled by governments or banks, that's immune to the rules of wider society.](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i9m9NR9YOeNU/v0/-1x-1.jpg)
This had an appeal, and crypto became very valuable, and people looked to put their money to work in crypto—and they trusted people. Over and over again, they trusted Quadriga and Terra and Voyager and Celsius and dozens of other projects that failed or ran off with their money or got hacked. They just fell over themselves to trust people.
![Gerald Cotten, Do Kwon, Stephen Ehrlich, Alex Mashinksy](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iss1ON_jPfzY/v0/-1x-1.jpg)
Clockwise: Gerald Cotten (Quadriga), Do Kwon (Terra), Stephen Ehrlich (Voyager), and Alex Mashinsky (Celsius).
Why did they do this? Well, theres a common thread in these kinds of things. The people who are easiest to pull in are often the ones who think theyre the most independent-minded and cynical. “Either the bank is lying or Celsius is lying,” Celsius told people, flattering their unjustified belief that they knew the real score.
But theres something else, too. The people who trusted Celsius werent tripped up *only* by their belief that they were outsmarting the system, though there was that. They also…they thought Celsius was a bank? It looked sort of like a bank. It did things, with crypto, that were banklike. They were familiar with how banks work. They understood that *banks are safe*, that if you put money in a bank you can get it back. They looked at Celsius and thought, “Well, this is a big thing, it has a nice website, its available to Americans. Surely if it was a problem someone *wouldve done something about it*.”65
Theres something a bit alarming about this. Crypto is in a way *about* rejecting the institutions of society, about being trustless and censorship-resistant. But it quietly free-rides on peoples deep reservoir of trust in those institutions. People are so used to trusting banks that, when Celsius told them not to trust banks, they said, “Ah, yes, OK,” then trusted Celsius to work like a bank, to be regulated like a bank. They didnt worry about Celsiuss opacity and leverage. They didnt do their own due diligence on its loans and audit its DeFi positions and demand irrefutable proof of its soundness. It promised to pay them back, and that was good enough for them.
But theres something hopeful about it, too. Trust in institutions is so strong and resilient that all of cryptos bluster cant stamp it out. “Not your keys, not your coins, put your trust only in verifiable code,” crypto evangelists yelled, and people heard them and said, “Yes, that is nice, but Im busy, Im going to trust these nice strangers with my Bitcoin.”
Crypto, in its origins, was about abandoning the system of social trust thats been built up over centuries and replacing it with cryptographic proof. And then it got going and rebuilt systems of trust all over again. What a nice vote of confidence in *the idea of trust*.
![handshake](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/igQFNuRkqSKE/v0/-1x-1.jpg)
ONE THING CRYPTO HAS DONE IS SHOW JUST HOW VALUABLE TRUST IS.
Theres a related story about money. One way to think of money is that its a system of social credit. Society has mechanisms—capitalism, politics, etc.—to allocate resources, with a rough heuristic of: “The more good stuff you do for society, the more good stuff you get for yourself.” Money is a rough way of keeping track of that. If you do good stuff for other people, they give you money, which you can use to buy good stuff for yourself.
Another way to think about money is that its some sort of external objective fact. If you have money, its *your* money, and society has nothing to say about whether you can keep it or what you can do with it.
Crypto starts from the second view: Your Bitcoin are yours immutably; theyre controlled only by your private key, and no government or bank can take them away from you. But the history of crypto since Satoshi has undermined this view. If you got your Bitcoin illegitimately, the government can trace them and stop you from spending them. There are still gatekeepers—crypto exchanges and fiat off-ramps and banks—that decide what you can do with your money. Crypto might be immutable and “censorship-resistant,” but its interactions with the real world are not.
Not just that. Crypto isnt even immutable, not really. In 2016 an important smart contract on the Ethereum blockchain called the DAO [got hacked](https://www.bloomberg.com/opinion/articles/2016-06-17/blockchain-company-s-smart-contracts-were-dumb). (DAO is now a generic term, but this was *the* DAO, the first of its name.) There was a flaw in the contract that allowed a hacker to drain a lot of money from it, and he did. Ethereum was a new technology, so the hack was a big deal.
This hack was controversial; there was controversy about whether it was even a “hack.” Some people said: “Look, if the code of the smart contract allowed the hacker to do this, then it was allowed. Theres no external standard of validity, just the code, and if it happened in the code, its fine. If we reverse this transaction, we will destroy the essence of the blockchain, which is the irreversibility of transactions.”
Other people said: “No, thats nuts. This was a big hack, and lots of people lost money.” It was clear enough—to humans, anyway—that this was not how people intended the smart contract to work, even if it was in fact how it worked. *Sometimes the code is wrong.*
The Ethereum network decided to roll back the blockchain and reverse the hack. Thats hard to do. You couldnt just amass a bunch of computer power yourself and hack the Ethereum blockchain and reverse transactions. But if *everyone in Ethereum* agrees to do it, they can.66 Cryptocurrency isnt money thats *totally immune to censorship*, thats atomic and individual and immutable. Its money thats *controlled by consensus*, much like dollars are. Its a different form of consensus—proof-of-work mining, proof-of-stake validation, decentralized communities, DAOs, Discord chats—but the thing that gives you the money and makes the money valuable is that consensus.
![](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i0yl_tj2c4z0/v0/-1x-1.jpg)
MONEY IS A SOCIAL FACT, EVEN WHEN THE MONEY IS BITCOIN OR ETHER.
Heres another, more speculative story.
The most valuable thing in human life, this story begins, is connection. Being with your friends, making friends, feeling esteemed by your peers: These are the things that give life meaning.
“Sure, sure, sure, whatever,” you say, because this feels fuzzy and fake. But look how rich [Mark Zuckerberg](https://www.bloomberg.com/billionaires/profiles/mark-e-zuckerberg/) is! In 1999, if youd said, “A giant contributor to US gross domestic product is the friends we made along the way,” that wouldnt have made any sense. Now, Facebook is worth almost half a trillion dollars—though, to be fair, its changed its name to Meta Platforms Inc. to mark its pivot away from friendships.
And to mark its pivot to the metaverse. I dont know what the metaverse is. But I gather that it means something like: Our lives, our social lives, our intellectual lives, our professional lives, our aesthetic lives, the things that we do all day that give our lives meaning, will take place increasingly on interconnected computers. Our reality will be intermediated increasingly by computers and the internet.
![Kim Kardashian and friend taking selfie](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iF7iwHOoElQY/v0/-1x-1.jpg)
Human social life moving to the internet has economic value, it turns out, though if you explain the mechanism, it seems remarkably trivial. “If people talk to their friends about vacuums, and you show them an ad about vacuums, theyll probably buy a vacuum.” “If we intermediate between peoples friendships, we can serve ads.”
A key lesson of crypto is: A bunch of people can get together online and *make their community have economic value, and then capture that value for themselves.* If you explain the mechanism for *that*, it sounds even worse. “Well, see, theres this token of membership in the community, and its up 400% this week. Also the tokens are JPEGs of monkeys.”
But look, pretty soon, what *are* we going to sell to each other? Online communities are valuable. Theres money to be made.
![Group of people dressed up as superheroes](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/i9eMi5WGXP4s/v0/-1x-1.jpg)
WHY SHOULDNT THE COMMUNITY MEMBERS GET THE MONEY?
There are lots of online communities, though. One is Bored Ape Yacht Club, a self-selected club where you become a member by buying an expensive membership token. The value of that community is, I guess, you feel cool and exclusive? Maybe you befriend a celebrity or a venture capitalist, bonding over your apes.
Or theres social networking. Facebook is valuable; make a Neo-Facebook; give people a token; let them keep the value for themselves. “Advertisers can get your data only if they pay you in tokens,” you tell them, or “You can earn tokens for posting, which you can then use to pay other people for posting.” Why not?
Or gaming. “If you buy a laser in this game, its an NFT, and its yours to keep forever. Maybe you can use it in another game.” Why not? These are standard claims about web3 that leave me mostly cold. I dont want to be in the advertising-data-selling or computer-game-arms-dealing businesses.
But other online communities are DeFi? Like, in some crude sense, what decentralized finance is is a big community of people who get together to pretend to trade financial assets—or, rather, who trade financial assets in a sort of virtual world. Theyve built derivatives exchanges and secured lending protocols and new ways to do market-making, but instead of trading stocks or bonds they trade tokens that they made up. And those tokens are valuable, in part because theyre linked to other online communities (you can use DeFi to buy Ether that you then use to buy NFTs to become a Bored Ape owner), but also in part because DeFi is itself an online community, or cluster of communities, and the tokens it trades are points in that community. If you build a cool trading platform or execute a cool trade, youll earn tokens, which you can spend on other cool trading platforms or trades. Talented financial traders are willing to work on projects to get those tokens. If you had some of those tokens, you could hire those traders.
A problem, and an advantage, of crypto is that it financializes everything. “What if reading your favorite book made you an investor in its stock.” Feh, its a story that only a venture capitalist could love. On the other hand, its a story that venture capitalists love. A minimalist case for crypto is:
***“Its an efficient way to get venture capitalists to put money into software projects.”***
Or its a Ponzi. The web3 vision of having the customers of every project also be its investors works well in times of speculative excess, but its disastrous in a crash. “All our customers have a stake in our success” is great when token prices go up, but it also means that all your customers become poorer when token prices go down, which makes it hard to attract customers.
But weve only really seen the boom. The problem with making every product also a Ponzi is that you cant be sure if your customers are there for the product or the Ponzi. When it collapses, you can. If theyre still thereif they still use your product without getting rich off the tokenthen that means your product is promising. If not, well, you ran a Ponzi.
The great speculative frenzy of crypto and web3 over the past few years drew a lot of money and attention and talent into the crypto world. A great deal of that money and attention and talent went strictly to optimizing the speculative frenzy, to tweaking the tokenomics and leveraging the bets so people could make as much money as possible without actually building anything. Some of it probably went into building, though.
Now the speculative frenzy has, if not disappeared, at least cooled. Now if youre trying to raise money for a web3 project, it should probably do something, besides issuing a token that goes up. If it creates value for people, if the product is something people want, then the tokens will take care of themselves. Crypto people have a lot to prove on that front. One reason the 2022 crisis in crypto didnt spark a contagion is that crypto has so few connections to things that matter to people. They play games and gamble on the blockchain, but they dont have mortgages there.
Perhaps this is all a self-referential sinkhole for smart finance people, but honestly it would be weird if thats all it ever turned out to be. If so many smart finance people have moved into the crypto financial system, if they find it so much more enjoyable and functional and productive than the traditional financial system, surely theyll eventually figure out how to make it, you know, *useful*.
Heres another way to tell this story. Theres the real world, and people do stuff in the real world. They grow food and build houses.
![architectural drawing](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/ihn2Szja..4E/v0/-1x-1.jpg)
Over many centuries a financial system grew up, as an adjunct to the real world. That financial system enabled people to do more stuff in the real world. They could build railroads or semiconductor factories or electric cars, because they could raise money from strangers to fund their activities. They could buy bigger houses, because they could borrow money from banks. They could also trade out-of-the-money call options on GameStop, because thats fun and you can make memes about it, but thats an accidental feature of a financial system that mostly does serious stuff in the real world.
By 2008, or 2022, that system looked pretty abstract. When you think about modern finance, you often think about things like those GameStop options, or the system of payment for order flow that enables their trading, or synthetic collateralized debt obligations referencing other CDOs referencing pools of mortgage-backed securities. Theres a house there somewhere, under the CDO-squareds. All the sophisticated modern finance can be traced back, step by step, to the real world. Sure, its a lot of steps now. But the important point is that sophisticated modern finance was built *up*, step by step, from the real world. The real world came first, then finance, then the more complicated epiphenomena of finance.
![image of tornado approaching house](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iB3G5zynYF8Q/v0/-1x-1.jpg)
Crypto, meanwhile, has built a financial system from first principles, pure and pleasing on its own, unsullied by contact with the real world. (I exaggerate: The basic function of *sending money* using crypto, Satoshis original goal, is fairly practical. But, otherwise.) Thats interesting as an object of aesthetic contemplation, and Ive enjoyed contemplating it, and I hope you have, too. And its attracted a lot of finance people who also enjoy contemplating it, and getting rich. And their task is to build back down, step by step, to connect the elegant financial system of crypto to the real world. Youve built a derivatives exchange, cool, cool. But can a real company use it to hedge a real risk facing its real factory? Youve built a decentralized lending platform, awesome. But can a young family use it to buy a house?
And the answer is, you know, maybe, give it time. The crypto system has attracted a lot of smart people who want to solve these problems, in part because theyre intellectually interesting problems and in part because solving them will make these people rich.
But another part of the answer might be that the real world—growing food, building houses—is a smaller part of economic life than it used to be, and that manipulating symbolic objects in online databases is a bigger part. Modern life is lived in databases. And crypto is *about* a new way of keeping databases (on the blockchain).
If you build a financial system that has trouble with houses but is particularly suited to financing video games—one that lets you keep your character on the blockchain, and borrow money from a decentralized platform to buy a cool hat for her, or whatever, I dont know—then that system might be increasingly valuable as video games become an increasingly important part of life. If you build a financial system whose main appeal is its database, it will be well-suited to a world lived in databases. If the world is increasingly software and advertising and online social networking and, good Lord, the metaverse, then the crypto financial system doesnt have to build all the way back down to the real world to be valuable. The world can come to crypto.
![roller coaster](https://assets.bwbx.io/images/users/iqjWHBFdfxIU/iz6.CG9h7Y2o/v0/-1x-1.jpg)
WORTH A SHOT, NO?
[
**Want more?
Subscribe to Matt Levines *Money Stuff*, a daily newsletter on all things Wall Street and finance.**
](https://www.bloomberg.com/account/newsletters/money-stuff)
**Editor**: Pat Regnier
**Development**: Peru Dayani, James Singleton
**Production**: Emily Engelman, Steph Davidson, Thomas Houston, Michael Frazer, Justin McLean, Bernadette Walker
**Designers**: Albert Hicks IV, Alexander Shoukas
**Photo editors**: Aeriel Brown, Donna Cohen, Ryan Duffin, Dietmar Liz-Lepiorz, Leonor Mamanna
**Audio**: Mark Leydorf
**Copy editors**: William Elstrom, Nicholas Mullan, Minette Valeriano
**Editorial assistance**: Jim Aley, stacy-marie ishmael, Olga Kharif, Margaret Sutherlin, Folder Studio
**Photos**: Alamy (21), AP Images (1), Bloomberg (5), Classic Stock (1), Everett Collection (1), Getty Images (64), Juliana Tan (1), Library of Congress (1), Nasa (1), Netflix/Everett Collection (1), Reuters (2), Shutterstock (4), Trunk Archive (1), YouTube (1). Videos: Getty Images (3)
 
 
---
`$= dv.el('center', 'Source: ' + dv.current().Link + ', ' + dv.current().Date.toLocaleString("fr-FR"))`