Colored coins, chromawallet, coinprism, NXT Asset Exchange, Mastercoin, Counterparty… tens of projects are working on asset tracking, transfer and exchange systems. What are they doing? Will it work?

I wrote a piece last year explaining how today’s securities trading and settlement systems work. The full picture of participants is pretty complex:

There are surprisingly many parties involved in the safekeeping and exchange of securities. What would the picture look like in a “decentralized world”?

At core, I think the system is all about assuring “performance”. That is… it’s all about making sure that people actually deliver on the promises they make when they enter into a trade.

Recent controversies might make this seem hopelessly naïve – and they show that ensuring fairness in exchange is important – but assuring performance is the core of the aspiration.

And to deliver on this aspiration, today’s system is based on a closed, centralized model. I talked about it here and also argued Mt.Gox model was even more centralized than the mainstream system.

We’re now seeing serious projects work on this problem. Perhaps revisiting the fundamentals will help us predict which of these projects will prevail?

Why do we have exchanges in the mainstream world? There are lots of valid answers (liquidity, fairness, …) but none of this matters if you can’t be sure a trade you make will be settled. After all, what’s the point of agreeing a trade with somebody if they can just change their mind afterwards if it suits them?

In the mainstream world today, the general model for a stock exchange is one where it has members, who are the only entities allowed to trade on that exchange. These members are subject to strict rules. For example, the London Stock Exchange’s rule book has over 100 pages: http://www.londonstockexchange.com/traders-and-brokers/rules-regulations/rules-lse.pdf

Rule G5000 sums captures the critical function of the exchange for me:

“Obligation to settle: A member firm shall ensure that every on Exchange trade effected by it is duly settled.” Obvious, perhaps… but it needs to be said!

So the exchange helps ensure an orderly market by vetting and monitoring its members. This gives participants confidence: they don’t need to worry about who is on the other side of their trade. They know the trade they agree to will get settled. But other exchanges employ different models:

Prefund: Mt. Gox asked everybody to deposit their Bitcoins or fiat with them before they could trade. It guaranteed that trades executed on Gox would settle. Unfortunately, it only guaranteed they would settle on the books of Mt.Gox. As many people discovered to their cost, a settled trade on Gox was not the same as cash the bank or Bitcoins in their wallet

Mt. Gox asked everybody to deposit their Bitcoins or fiat with them before they could trade. It guaranteed that trades executed on Gox would settle. Unfortunately, it only guaranteed they would settle on the books of Mt.Gox. As many people discovered to their cost, a settled trade on Gox was not the same as cash the bank or Bitcoins in their wallet Escrow: The model I outlined in my piece earlier this year was essentially an escrow scheme. You place your Bitcoins beyond reach and they are either delivered back to you when your bid/offer expires or are delivered to the buyer. The trick here is in choosing the escrow “agent” (or agents…) carefully.

The model I outlined in my piece earlier this year was essentially an escrow scheme. You place your Bitcoins beyond reach and they are either delivered back to you when your bid/offer expires or are delivered to the buyer. The trick here is in choosing the escrow “agent” (or agents…) carefully. Clearing: This is how the The London Stock Exchange does it. In certain situations, members don’t even need to own the securities they’re selling at the time they trade them; they just need to make sure they deliver them as promised on the day of settlement. This model works because there is a closed group of trusted and well-known entities. However, there is clearly a risk: what happens if one of the participants goes bust between trade and settlement? That’s what a clearing house is there to solve, amongst other things. It keeps a close eye on its members, requires them to contribute to a “default fund” and steps in to make the other members whole if one of them fails.

Now, when we look at some of the most vibrant projects in the Bitcoin and cryptocurrency world, we see something interesting: a large number of them are working on representing non-crypto assets – such as securities – on the blockchain – They’re building out the vision of a decentralized general-purpose asset ledger.

There are two concepts we need to understand:

A token – something that represents an asset. Perhaps 100 shares of IBM Common Stock or ownership of a particular car.

– something that represents an asset. Perhaps 100 shares of IBM Common Stock or ownership of a particular car. An issuer – somebody that makes a promise to confer the rights and benefits associated with that asset to whomever holds it at any given point.

A concrete example: imagine I owned 10000 IBM shares (I wish…). I could issue them onto one of these platforms and publish the definition so others could see it and could see it was from me. I would, in effect, be making a promise:

“I will convey whatever benefits I enjoy through my ownership of these shares to whomever holds the token”.

So if I receive a dividend cheque, I pay it to the holder of the token. If you trust me to be good for this promise, you might be willing to purchase the token from me for $2m or so… the price of the IBM shares… owning the token would be just as good as owning the shares… and you could store it in your Bitcoin wallet and not have to deal with your broker any more!

Now, it is unlikely that you’d trust such a promise from me. But if was made by a major custodian bank you might. But note: you do have to trust the issuer.

So why bother? Why bother going to the trouble of building a decentralized asset ledger if you have to trust somebody at the end of the process?

For me, the answer is that this approach might allow increased competition between issuers. Furthermore, moving disparate asset registers (custody records, vehicle registration databases, etc) onto a common architecture might enable innovations we haven’t yet considered. It’s too early to tell so we can all be grateful to the pioneers who are experimenting so we don’t have to.

I think there are three broad camps:

Coloring Bitcoins . Projects such as chromawallet and coinprism are working on systems to “tag” Bitcoins so that they can be tracked across transactions

. Projects such as chromawallet and coinprism are working on systems to “tag” Bitcoins so that they can be tracked across transactions New Protocols Running Over Bitcoin . mastercoin and counterparty piggy-back on Bitcoin’s peer-to-peer network, double-spend protection and consensus system but their tokens are essentially independent of Bitcoins. A counterparty token is not simply a “tagged” Bitcoin.

. mastercoin and counterparty piggy-back on Bitcoin’s peer-to-peer network, double-spend protection and consensus system but their tokens are essentially independent of Bitcoins. A counterparty token is not simply a “tagged” Bitcoin. Entirely Separate Protocols. NXT and ethereum fit into this camp.

I have no particular insight into the structure of any of these projects so let’s assume they’re all run by capable, honest people and further assume that we’ll see a future where assets of all types, including securities, will be represented on a blockchain-like decentralized platform.

Then what? Presumably people will want to buy and sell…. To exchange.

And that’s where things get interesting… because we have to solve the performance problem. We’re now in a decentralized, pseudonymous world… how do we ensure somebody who offers to buy an asset for a given price actually goes through with it and pays up?

What is the crypto-ledger rule G5000?

Is it possible to build a decentralized exchange on any of these platforms that has the strong performance guarantees we need? Can we build a decentralized exchange where a matched bid and offer inevitably lead to a settled trade?

It we look at our three models from previously, “clearing” isn’t going to work (it is, by definition, centralized and reliant on trusted identities). “Prefunding” is also problematic – what happens if the entity you sent your assets to disappears? So it looks like “escrow” is the only game in town.

Now, part of the solution already exists: we can construct “atomic” asset transfers using the Bitcoin protocol today. So I will assume exchanging payment and asset in a single transaction (“Delivery versus payment”) is achievable today on any of the platforms discussed above. But we need to get to a point where creating a valid transaction like this is inevitable once a bid and offer are matched.

Here’s where I think the state of the art is with the three approaches and it’s surprisingly different:

Coloring Bitcoins. The systems I’ve looked at don’t route bids/offers over the Bitcoin system so any matching will be done external to the platform. So it seems to me that “decentralized exchanges” on this model will have to require those posting bids or offers to demonstrate that they have placed the corresponding colored coins/Bitcoins in escrow with one or more acceptable third parties. There’s nothing that will do this automatically. So, it’s worth watchin firms like Xapo in the US and Elliptic in the UK. Professionally-run Bitcoin “cold storage vaults” such as these feel like “proto custodian banks” that could perform this function. The question is: can they devise a service that is sufficiently decentralized yet which still allows them to earn an income?

New Protocols Running Over Bitcoin. My understanding of these systems is that they embed bids/offers in the blockchain and have a protocol definition that means matches can be determined unambiguously. Furthermore, the act of making a bid or offer locks the associated assets until the trade is resolved or a bid/offer expires… automatic escrow, if you like. Assuming I am right, then this does appear to offer the “inevitability” promise that I think is so important. But it is at the expense of polluting the blockchain with bids/offers. It seems inelegant to me that one would store transient data (time-limited bids/offers) in such a permanent form of storage. But perhaps there’s no other way?

Entirely Separate Protocols. My working assumption is that NXT, too, works on the basis of bids/offers encumbering the associated assets until the outcome of the trade is resolved. With Ethereum, the answer to every question is, of course, “it’s Turing Complete so of course you can do it” but I need to dig a little deeper to be sure….

Where is this going?

I think we’re going to see a market test: the colored coin approach is, in many ways, the most elegant as it uses the blockchain solely for storing/transferring the asset. It means a range of exchange types can be trialled (escrow, pre-funding, reputation-based?)… but none of them will deliver full “inevitability” of settlement. Perhaps consumers will care. Perhaps they won’t.

Projects like mastercoin and counterparty look able to deliver on the “inevitability” promise but will it be at the cost of blockchain bloat?

It will be an interesting few months ahead.

A final thought… What if we simply don’t worry about it and price it instead?!

The other approach is completely radical… instead of trying to force performance, why not model it as an option? We can think of somebody who posts a bid/offer but who then reneges as exercising an option to renege. This option clearly has value – if they would lose money by completing the trade as agreed, the option payoff is at least as much as they stood to lose! So is it possible to model the value of the option to renege and force participants to pay the option value up-front in order to post a bid/offer?

Unanswered questions: to whom would the price be paid? Is there any precedent for modeling the “option to renege” in this way? What would be the liquidity implications?

Conclusion

I said at the start of this piece that a new financial infrastructure is being built “hidden in plain sight”. For the reasons outlined above, I think the “exchange” aspect of this infrastructure still has a long way to go but we’re about to witness a fascinating experiment.