Algorithmic Trading
The XRP Ledger's decentralized exchange presents an opportunity to earn money through algorithmic trading, which means running a computer program to find and take profitable trading opportunities automatically. In algorithmic trading, you typically make many trades based on quantitative factors to earn steady, small profits; this is unlike traditional manual trading where you make a few long-term investments based on market fundamentals and wait to earn a large return over time. Blockchains are often more suitable for algorithmic trading than manual trading, because the high volatility of cryptocurrencies in general makes them less suitable for traditional "buy and hold" investing; the XRP Ledger is particularly suited for algorithmic trading, for several reasons:
- Decentralized exchange data is public and freely available.
- Trades settle in seconds, enabling frequent trading without specialized equipment.
- Transaction costs on the XRP Ledger are low.
Trading Strategies
Algorithmic trading can make profits through many different strategies; part of the challenge (or the fun) of algorithmic trading is designing and implementing your own unique approach. From a high level, algorithmic trading approaches often fall into the following categories:
- Arbitrage: Buying and immediately selling an asset to take advantages of price differences. This could involve finding sets of 3 or more assets where the prices aren't aligned, or using the XRP Ledger to move assets between private exchanges where the prices are different.
- Quantitative Trading: Predicting and taking advantage of future price movements based on past price movements, outside data, or both. Examples include candlestick patterns, correlating an asset's price movements with other assets, and using sentiment analysis of social media.
- Front-running: Taking advantage of pending trades, especially large ones, by buying and immediately reselling the assets those trades are buying. Front-running is often frowned-upon because it takes profits from other traders without adding liquidity or enabling exchanges that otherwise wouldn't occur. The XRP Ledger's canonical ordering of transactions makes front-running difficult, but not impossible.
Arbitrage Examples
There are many ways to perform arbitrage, both within and adjacent to the XRP Ledger. The following examples are meant to illustrate potential strategies, but others are possible as well.
You can use circular payments to complete multi-asset trades for a profit. The XRP Ledger automatically connects overlapping trades between pairs of assets, as well as sets of 3 assets where XRP is the asset in the middle. However, the XRP Ledger protocol does not automatically find and compete trades across other, longer or more complex paths. (Finding the best possible path is a category of problem that is known to be computationally intensive.) Therefore, if you do your own pathfinding, it is possible to find profitable arbitrage opportunities like this; if you do, you can specify those paths explicitly in a Payment transaction. For example, imagine there are three tokens, FOO, BAR, and TST, each with different issuers. If you can buy 2 BAR by spending 1 FOO, then buy 3 TST by spending those 2 BAR, and finally buy 1.1 FOO by spending 3 TST, you can earn a profit of 0.1 FOO minus any costs of the transaction such as transfer fees of the tokens involved.
You can perform cross-exchange arbitrage if you have accounts at multiple private exchanges where the prices for an asset are different. For example, if you can buy XRP at ACME Exchange for $0.45 per 1 XRP, then move the XRP over to WayGate Exchange where you sell it for $0.50 per 1 XRP, you can make a profit of $0.05 per XRP minus the costs of trading and sending the relevant transactions, including exchanges' fees to withdraw and deposit your profits. As a more complex example, if the BTC:ETH price shifts at ACME Exchange to make ETH cheaper relative to BTC, you could potentially take advantage of this price shift by selling ETH→XRP at one exchange, then moving the XRP to ACME Exchange and trading XRP→BTC→ETH for a profit there. Since XRP Ledger transactions settle in seconds but Ethereum transactions can take minutes and Bitcoin transactions can take hours, using XRP as a bridge currency can potentially allow you to take advantage of this opportunity sooner than simply trading ETH→BTC and then BTC→ETH at ACME Exchange. (This only works, of course, if there is enough liquidity and tight enough spreads that exchanging to XRP and back doesn't cost more than your profits.)
Background Reading
You can familiarize yourself with algorithmic trading, in general, by reading the following resources:
- Investopedia: Basics of Algorithmic Trading: Concepts and Examples
- Flash Boys: A Wall Street Revolt by Michael Lewis
- Investopedia: How Arbitraging Works in Investing, With Examples
The following pages describe key elements of how the XRP Ledger's decentralized exchange works:
Testing and Common Mistakes
Like any type of trading, algorithmic trading is not a surefire way to make money; there are many ways you might take a loss. Compared with manual trading, algorithmic trading has much less room for error. If you make a small mistake, but multiply it by a large number of trades, your losses can add up quickly before you have a chance to fix the problem. Therefore, it's wise to do various tests to make sure that your trading strategy will actually make a profit. You might do any or all of the following to test your strategy or the actual implementation of it (often called a bot):
- Manually calculate the potential returns based on the current ledger state or past trades.
- Record historical data and feed it to your bot, then record what actions the bot would have taken and compare the results against the actual historical price movements.
- Model or predict the results of your approach in various plausible future scenarios.
Common mistakes you might make in these calculations or in building your bot include:
- Rounding errors. If your math is not sound, or does not match the precision that the blockchain uses, you could inaccurately predict the results of a trade and take a loss, or have your trade not execute at all. The XRP Ledger uses different precision for token and XRP amounts, which can lead to rounding in unexpected places when trading one for the other. For more details on the precision used in the protocol, see Currency Formats.
- Be aware that token issuers can further limit the precision of exchange rates involving their tokens. See Tick Size for details.
- Typically, you need to adjust your amounts by some small percentage to account for potential differences in rounding or price movements between when you looked things up and when your trade executes. This amount is called slippage, and it's important to get the right amount. If it's too low, your transaction may not execute at all; but if it's too high, you're vulnerable to front-running, and the higher it is the more that price movements can cut into your profits in general.
- Forgetting extra costs and delays. For example, if two stablecoins are both fully backed by US dollars, but one issuer charges a 0.5% transfer fee and a different issuer charges a 0.25% transfer fee, you should expect about a 0.25% difference in the effective price those stablecoins trade at. Don't forget the costs of sending a transaction, even though they're usually small, nor the consequences of other potential delays. For example, even if an off-ledger private exchange shows a favorable price now, if that exchange takes hours or even days to process a deposit, the price is likely to shift so you can't take advantage of it unless you already have liquidity at that exchange.
- Not accounting for rare events. Even setting aside unprecented ("black swan") events, your calculations can be skewed by individual outliers. As one example (which is a true story), a trader reported that, when calculating the potential profits of a given strategy in a specific time range, over 80% of the profits came from a single "fat-fingered" transaction where another user had accidentally added an extra zero to their price. The same strategy was far less profitable when calculated against time ranges that didn't include the outlier transaction.
- Not reading transaction flags. The flags of an XRP Ledger transaction can have significant impacts on the way that transaction is processed and when the protocol marks it as "successful". For example, the flags of "Offer" transactions can make it a "fill or kill" order that only trades if the full amount can be obtained immediately; the flags of "Payment" transactions can make them partial payments that succeed even if they can't deliver the full amount to the intended destination. You need to do bitwise math to parse the
Flags
field of a transaction, but your expectations can be totally wrong if you skip doing so.
Taxes and Licensing
The legal requirements for trading on a blockchain vary by jurisdiction. In many cases, there are no licensing or other legal barriers to getting started, but you may be required to report your profits for tax purposes, especially if your gains or losses are over some thresholds. In the United States, you typically report profits (or losses) from trading as capital gains, which means you need to calculate the cost basis for the assets you buy at the time you acquire them. There are various tools out there that may be able to help track your trading activity or even generate the appropriate tax forms, depending on your individual situation. Depending on which assets you are trading and your trading strategies, the details may vary. Be sure to do your research or consult with a tax professional before you get started with algorithmic trading.
Technical Details
Placing Trades
Buying and selling fungible tokens and XRP within the XRP Ledger's decentralized exchange typically involves sending OfferCreate transactions. For a detailed walkthrough of the code and technical steps to place a trade this way, see Trade in the Decentralized Exchange. It is also possible to exchange currencies using the Payment transaction type. You could send a cross-currency payment to another user or even send it back to yourself, using a long path to link arbitrage opportunities together into a single operation.
Non-fungible tokens work differently; for the code and technical steps to trade NFTs, see Transfer NFTokens Using JavaScript.
Reading Trade Data
There are many sources of information about the trading activity in the XRP Ledger. Depending on your trading strategy and use case, you may be able to connect to the XRP Ledger through Public Servers, but you can often benefit from running your own server, and some use cases may not be practical without doing so. See Install rippled
for instructions on how to set up a core server in P2P mode.
If your approach involves following other transaction activity, you may need to read the transactions' detailed metadata to know exactly how much they traded. Offers can partially execute and may consume multiple matching offers. For a detailed explanation of how to interpret transaction metadata, see Look Up Transaction Results.
To give yourself as much time as possible to react to profit-taking opportunities, you may also want to look at pending data from the Open Ledger, or even monitor for proposed transactions. If you're connected to WebSocket, you can use the subscribe method with the transactions_proposed
stream to see transactions before they're validated by consensus; you can also limit this to a subset of transactions that affect a particular account (for example, the issuer of a token you're interested in trading) by subscribing using the accounts_proposed
parameter.
Automated Market Makers
The XRP Ledger natively supports Automated Market Makers (AMMs) that work alongside the existing central limit order based (CLOB) decentralized exchange. AMMs are an important factor in trading on the XRP Ledger. You can read more at the following links:
Further Reading
The following articles provide some more specific examples and interesting information about how these strategies work on other blockchains. This information isn't necessary to get started, but may help to provide perspective.
- Ethereum is a Dark Forest
- Flash Boys 2.0: Frontrunning, Transaction Reordering, and Consensus Instability in Decentralized Exchanges (PDF)
- Slippage in AMM Markets
- Frontrunner Jones and the Raiders of the Dark Forest: An Empirical Study of Frontrunning on the Ethereum Blockchain
- SoK: Transparent Dishonesty: front-running attacks on Blockchain (PDF)