August, 16, 2020,
Initial Pool Token Oferring $OPM Start 17th August 2020. Only 30% will be sold from our Prime DEX build using GnoSIS Protocol
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Liquidity pools offer a new standard for efficiently trading assets while allowing investors to earn a yield on their holdings. In this article, we discuss how liquidity pools work and their main advantages over order book exchanges. How it works
Order book peer-to-peer exchanges (e.g. 0x exchanges like Radar Relay)
Liquidity pool exchanges (e.g. OmegaSwap, Kyber, Uniswap, and Bancor)
Order book exchanges rely on a bid/ask system to fulfill trades. When traders place a buy or sell order at their chosen price for a token, the exchange’s matching engine only executes the trade once an opposite order at that price is available. Traders who place (limit) orders on the order book are called market makers and traders who execute their orders against orders already on the order book are called takers. A token’s price is therefore determined by the traders who choose at what price level to place orders.
This system works fairly well when there are enough buyers and sellers in the market, but there are a few unavoidable issues: tokens that lack liquidity due to low volume or interest not only become difficult to buy and sell but are also susceptible to unpredictable price swings caused by large individual transactions. Consequently, tokens that are characterized by high price volatility and inefficient conversions are unlikely to be adopted.
Liquidity pools directly address this problem by removing the dependence of tokens on trade volume and ensuring constant liquidity. Compared to the traditional order book model, liquidity pools have four main advantages:
Behind the scenes, the “liquidity pool” is just an automated market maker in the form of a smart contract that automatically matches traders’ buy and sell orders based on predefined parameters. Traders do not need to be matched directly with other traders, so as long as investors have deposited assets into the pool, liquidity is constant (although trades that are large relative to the available liquidity can still incur significant slippage).
On order book exchanges, market makers need to constantly adjust their bids and asks as asset prices move. Unsurprisingly, market makers tend to be professionals who have the time and expertise to actively manage their market-making strategies.
Liquidity pools don’t need to aggregate information across exchanges to determine the price of assets. Liquidity providers simply deposit their assets into the pool and the smart contract takes care of the pricing.
Liquidity pools require no listing fees. Anyone can invest in an existing liquidity pool or create a new exchange pair for any token, at any time.When an investor wants to supply liquidity into a pool, they deposit the equivalent value of both assets.
Example, supplying $100 of liquidity into an ETH/pDAI pool requires a deposit of $100 worth of ETH and $100 pDAI, so $200 in total. In return, the investor receives liquidity pool tokens which is generated from smart contract automatically which represent their proportional share of the pool and allows them to withdraw that share at any time.
When someone places a trade, trading fees are deducted from the asset that the trader sends to the exchange contract and added to the liquidity pool after the trade. For example, Uniswap charges a 0.3% trade fee. If your $100 ETH/DAI contribution makes up 0.007% of the pool, you’ll get 0.007% of that 0.3% trading fee.
Decentralized exchanges like Uniswap have a maximalist gas cost but OmegaSwap implement minimalist and simple but secure smart contract design that reduces gas costs. Efficient price calculations and fee distributions within the pool means less friction between transactions.
For example, most smart contracts can only send traded funds back to the same wallet. OmegaSwap enables traders to exchange assets and send them to another wallet in a single transaction.
Liquidity pools are designed to perform trades and maintain pricing according to a constant product formula that ensures the value of each reserve stays constant even as the ratios of the assets change. Buy transactions increase the price of the bought asset relative to the sold asset (since the bought asset’s ratio of the pool decreases) and sell transactions decrease the price of the sold asset (since its ratio in the pool increases).
Uniswap is a decentralized ETH and ERC-20 token exchange that charges a 0.3% trading fee on all its pools. Direct token-token pools are not yet supported in V1 but V2 its also supported.
To withdraw liquidity on either protocol, investors simply return their pool tokens at any time, and their proportional share of the pooled assets and the accrued trading fees are sent to their wallet.
i) asset prices when supplied and withdrawn ii) liquidity pool size, and 3) trading volumes.
It’s very important to note that as trading activity can change the price and quantity of assets in the pool
Investors will likely end up withdrawing a different ratio of assets compared to what they first deposited. This is where the movement of the market can either work for or against you. Since you’re required to supply an equivalent value of the two assets in the pool, large price changes between the time of supply and withdrawal in either asset can result in losses compared to simply holding each asset individually in a 50/50 portfolio (referred to as “impermanent loss” in some sources). Therefore, the realized returns that investors earn also depend on price and pool ratio changes in addition to earned trading fees.
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🦄 QBTC-ETH Pair | https://uniswap.info/pair/0x48B7c7Ef2e58A2DB21D273dcDe116a0B53cf87e2
🦄 DSR-ETH Pair | https://uniswap.info/pair/0x2e62EAcCF1008B4f1b1651EbfECfe61c0ADAbF78
🦄 DSR-USDC Pair | https://uniswap.info/pair/0xd48421f57f9baf43b74a610ef109593b2db568f3