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Liquidity, in the trading world, refers to how easily an asset can be bought or sold. High liquidity suggests an active market what are amms with many traders engaging in transactions, while low liquidity indicates less activity, making it harder to execute trades. On AMM platforms, instead of trading between buyers and sellers, users trade against a pool of tokens — a liquidity pool.
Constant sum market maker (CSMM)
In other words, market makers facilitate the processes required to provide liquidity for trading pairs. A market maker facilitates the process required to provide liquidity for trading pairs on centralized exchanges. A https://www.xcritical.com/ centralized exchange oversees the operations of traders and provides an automated system that ensures trading orders are matched accordingly. In other words, when Trader A decides to buy 1 BTC at $34,000, the exchange ensures that it finds a Trader B that is willing to sell 1 BTC at Trader A’s preferred exchange rate. As such, the centralized exchange is more or less the middleman between Trader A and Trader B. Its job is to make the process as seamless as possible and match users’ buy and sell orders in record time.
Yield farming opportunities on AMMs
Users can interact directly with smart contracts to execute their transactions, ensuring transparency and reducing the chances of manipulation or censorship. Beyond offering continuous liquidity and a permissionless environment, there are additional layers of benefits that AMMs provide when compared to their traditional market counterparts. Curve, the originator of StableSwap, has also released a new AMM for volatile assets called CryptoSwap [11]. CryptoSwap expands on the StableSwap algorithm by adding another parameter enabling quicker switching into price discovery mode (constant product) as the price moves away from the peg.
Valuing a liquidity pool and a CPMM: Uniswap-v1 and v2
These tokens can later be redeemed for a share of the pool, plus a portion of the trading fees. At their essence, AMMs are decentralized protocols that enable digital assets to be traded automatically and without the need for traditional market makers. By using liquidity pools instead of order books, AMMs facilitate trading by ensuring there is always a counterparty ready to fill a trade. This not only streamlines the trading process but also enhances liquidity, making markets more efficient and accessible.
Other DeFi Applications of AMMs
In a CPMM such as Uniswap, the product of the quantity of two tokens in a liquidity pool is a constant. The example examined here replicates and extends the one developed in the original Uniswap-v1 whitepaper. When needed, we will introduce the changes brought about in Uniswap-v2, and how this impacts the workings of the CPMM platform. Overall, while a variety of AMMs have emerged to trade tokens in a decentralized manner, their performance and attributes are connected.
To mitigate price slippage and maintain a smooth trading experience, centralized exchanges rely on professional traders or financial institutions to act as market makers. These entities create multiple buy and sell orders to match the orders of retail traders, effectively ensuring counterparties are always available for all trades. In the context of centralized exchanges, these liquidity providers serve as market makers, facilitating the liquidity provisioning process.
While centralized exchanges rely on order matching systems and order books, DEXs employ autonomous protocols known as Automated Market Makers (AMMs). These protocols leverage smart contracts, self-executing computer programs, to determine the prices of digital assets and provide liquidity. Unlike centralized exchanges, where traders match orders with other users, DEX users trade against the liquidity locked within these smart contracts, often referred to as liquidity pools. Remarkably, becoming a liquidity provider in AMMs is not limited to high-net-worth individuals or corporations; any entity can participate as long as they meet the requirements hardcoded into the smart contract. Historically, order books run by professional market makers have been the dominant method used to facilitate exchange. On-chain, maintaining an order book using traditional market-making tactics is prohibitively expensive, since storage and computation on distributed ledgers are in short supply and high demand.
Current research has, in general, focussed on the optimizing fees for a single entity (typically, liquidity providers, as in Tassy and White 2020). Our comparative static analysis suggests that the costs of rebalancing are inevitable, and liquidity providers must depend on fees from users to outweigh this. However, this does not factor in how price movements impact the compounding of wealth over time. Tassy and White (2020) show that, under certain circumstances, rebalancing is useful to minimize the negative effect of losses on compounding. Liquidity providers are entitled to the fees that are paid by traders on Uniswap, in proportion to the amount a liquidity provider has contributed.
For this reason, Automatic Market Makers (AMM) have emerged as an efficient class of methods to facilitate the exchange of crypto assets on distributed ledgers. An AMM leverages smart contracts to allow permissionless participation in market-making by individuals seeking yield. These individuals passively provide liquidity to the contract, which can then use a predetermined function to automatically facilitate exchanges between buyers and sellers. The design of this procedure involves many tradeoffs that ultimately affect the utility of the platform to both liquidity providers and traders. Automated market makers (AMMs) are part of the decentralized finance (DeFi) ecosystem. They allow digital assets to be traded in a permissionless and automatic way by using liquidity pools rather than a traditional market of buyers and sellers.
Balancer functions similarly to Uniswap but also offers new, dynamic features that allow it to have more than one use case outside of a simple liquidity pool. In this respect, liquidity is an indicator or measure of” availability”. I.e., it is the rate at which an asset can be bought or sold without appreciably affecting its price stability. While this primer takes a fairly deep look at AMMs and DEXs, it barely scratches the surface of advancements to financial instruments and institutions that are taking place in the DeFi space. In other words, there is much scope for exciting research to be done in the DeFi space. The section “The geometry of a CPMM” introduces some basic tools of economic modelling—homogeneous functions, homothetic functions and Euler’s theorem—as well the geometric properties characterizing these tools.
- In the context of centralized exchanges, these liquidity providers serve as market makers, facilitating the liquidity provisioning process.
- A Hybrid Function Market Maker (HFMM) attempts to achieve this by integrating the exchange functions of a CSMM and a CPMM/CMMM.
- Curve’s CryptoSwap implementations also include a dynamic fee and an internal oracle system, making it unique in that respect since most other solutions use fixed rates or Chainlink oracles [12].
- AMMs, on the other hand, utilize mathematical formulas to determine the price of assets and execute trades, which can reduce trading costs and the spread between buy and sell prices.
- In 2018, a groundbreaking platform called Uniswap emerged as the pioneer of AMMs.
Uniswap was the first true decentralized AMM to enter the market in November 2019. Nor does this paper delve into the uses of AMMs other than for the purpose of creating a DEX. Some concluding thoughts on this are offered in the section “Conclusions”. Users can manage their own digital identities, choosing what level of information they wish to provide to applications.
However, the term “impermanent” is key here, as there is a probability that the price ratio will eventually revert. The loss becomes permanent only when an LP withdraws their funds before the price ratio returns to its initial state. Additionally, potential earnings from transaction fees and LP token staking can sometimes offset such losses. Decentralized exchanges, or DEXs, take a fundamentally different approach to crypto trading compared to their centralized counterparts. They aim to eliminate intermediaries and custodial infrastructures, allowing users to trade directly from non-custodial wallets where they control the private keys.
AMMs continuously adjust prices based on supply and demand dynamics through their algorithmic design, offering more current and fair market prices. By doing this, you will have managed to maximize your earnings by capitalizing on the composability, or interoperability, of decentralized finance (DeFi) protocols. Note, however, that you will need to redeem the liquidity provider token to withdraw your funds from the initial liquidity pool.
In a CMMM, therefore, the share of the value of any token to the value of the entire pool is fixed and equal to the weight of the token in the liquidity pool. One way to do this is through an on-chain order book where every order is recorded on the blockchain, but this can be expensive. An alternative approach involves constructing an off-chain order book, which only uses the blockchain for settlement, but orders are recorded elsewhere (possibly by some centralized third-party). This is less expensive, but also less decentralized and secure compared to an on-chain order book (Schär 2021; Pourpouneh et al. 2020). AMMs are more than just a component of the DeFi ecosystem; they are a transformative force in the financial sector.
A mix of a CPMM/CMMM and a CSMM that emphasizes both their advantages, while minimizing their problems, would be a desirable middle-ground in many situations, such as the exchange of stablecoins. A Hybrid Function Market Maker (HFMM) attempts to achieve this by integrating the exchange functions of a CSMM and a CPMM/CMMM. Some AMM models incorporate mechanisms for optimizing capital allocation, such as concentrated liquidity.
Uniswap is an automated market maker that allows crypto users to deposit their assets into a shared pool, thereby enabling them to earn trading fees from the pool. In an order book system, the matching of orders by buyers and sellers (that is, the forces of demand and supply) produces a price. In an AMM, prices are determined algorithmically; what guarantees, then, that the AMM prices reflect demand and supply conditions in the wider market for cryptocurrencies? For example, suppose there exists another exchange—an ‘external’ or ‘reference’ market—that prices some token, say ABC token, at 2 XYZ tokens.
To address this issue, AMMs incentivize users to deposit digital assets into liquidity pools, enabling other users to trade against these funds. In return, liquidity providers (LPs) receive a portion of the fees generated from transactions executed within the pool. In essence, if your deposit represents 1% of the liquidity in a pool, you’ll receive an LP token representing 1% of the accrued transaction fees in that pool. When an LP wishes to exit a pool, they can redeem their LP token to claim their share of the transaction fees.
These entities create multiple bid-ask orders to match the orders of retail traders. With this, the exchange can ensure that counterparties are always available for all trades. In this system, the liquidity providers take up the role of market makers.