LogoLogo
Dev docs
MainDev docs
  • Docs
  • Dev docs
Dev docs
MainDev docs
  • Welcome
  • Guides
    • Integrate WOOFi as a liquidity source on EVM
    • Integrate WOOFi as a liquidity source on Solana
      • Rust SDK
      • TypeScript SDK
      • Architecture
    • Become a WOOFi broker
  • Resources
    • Product Docs
    • The math behind sPMM
    • Smart contract architecture
    • On-chain price feeds
  • References
    • Contract Addresses
      • Solana
      • Arbitrum one
      • Avalanche c-chain
      • Base
      • BNB smart chain
      • Ethereum
      • Linea
      • Mantle
      • OP mainnet
      • Polygon PoS
      • zkSync Era
      • Sonic
    • Data APIs
      • Swap
      • Earn & Stake
    • Audits and bounties
    • GitHub
  • Deprecated docs
    • [v1] sPMM liquidity integration
    • [v1] On-chain price feeds
    • Legacy contracts
Powered by GitBook
On this page
  • Synthetic Proactive Market Making (sPMM)
  • Custom On-chain Price Feed

Was this helpful?

Edit on GitHub
  1. Resources

The math behind sPMM

PreviousBecome a WOOFi brokerNextSmart contract architecture

Last updated 10 months ago

Was this helpful?

Synthetic Proactive Market Making (sPMM)

sPMM is the core algorithm powering the WOOFi Swap, which provides the best way to simulate a CEX order book in a DEX liquidity pool.

The sPMM works as follows:

If a user wants to buy the minimum amount of base tokens, the executed price will be:

The average buy price is:

We can get the sell price in the same way. The final formula is:

  • Basic sell function:

  • Basic buy function:

  • Reverse sell function:

  • Basic buy function:

Custom On-chain Price Feed

WOOFi Swap gets the order book data from the centralized exchange and estimates a trade price using mid-price, spread and slippage. Define mid-price p0p_0p0​and spread sss:

p0=(pbid+pask)/2p_0=(p_{bid}+p_{ask})/2p0​=(pbid​+pask​)/2

s=(pask−pbid)/p0s=(p_{ask}-p_{bid})/p_0s=(pask​−pbid​)/p0​

p=pask=p0∗(1+s/2)p=p_{ask}=p_0*(1+s/2)p=pask​=p0​∗(1+s/2)​

We defienΔQ\Delta QΔQ as the amount of quote token and ΔB\Delta BΔB as the amount of base token. If a user wants to buy more base tokens, slippage will be applied and the average buy price will be:

p=ΔQ/ΔB=pask∗(1+slippage)p=\Delta Q/\Delta B=p_{ask}*(1+slippage)p=ΔQ/ΔB=pask​∗(1+slippage)

Slippage is determined by overall market liquidity across centralized exchanges. Generally speaking, if a user trades two orders of one pair with the same USD notional value, they should have similar slippage. Assuming that quote token is a USD stable coin, we can define the liquidity coefficient kkk:

k=slippage/ΔQk=slippage/\Delta Qk=slippage/ΔQ

p=ΔQ/ΔB=pask∗(1+k∗ΔQ)p=\Delta Q/\Delta B=p_{ask}*(1+k*\Delta Q)p=ΔQ/ΔB=pask​∗(1+k∗ΔQ)​

sellBase(ΔB)=ΔQ=ΔB∗p/(1+k∗ΔB∗p)sellBase(ΔB) = ΔQ = ΔB * p / (1+k*ΔB*p)sellBase(ΔB)=ΔQ=ΔB∗p/(1+k∗ΔB∗p)​

sellQuote(ΔQ)=ΔB=ΔQ∗p−1/(1+k∗ΔQ)sellQuote(ΔQ) = ΔB = ΔQ * p^{-1} / (1 + k*ΔQ)sellQuote(ΔQ)=ΔB=ΔQ∗p−1/(1+k∗ΔQ)​

In the situation that one user sells some base tokens and another user wants to take the other side of the trade, AMMs apply the inverse of the sell base function to calculate how many quote tokens to be sent to the user, which means the liquidity provider has to pay negative slippage to the arbitrageur to bring the balance of the pool back. WOOFi Swap provides more flexibility in the rebalance strategy by adjusting the rebalance coefficient r(0≤r≤1)r (0\leq r\leq 1)r(0≤r≤1). When r=1r=1r=1 the full slippage will be paid to the arbitrageur, and when r=0r=0r=0 no slippage will be paid:

reverseSellBase(ΔB)=ΔB∗p/(1−k∗ΔB∗p∗r)reverseSellBase(\Delta B) = \Delta B * p / (1-k*\Delta B*p*r)reverseSellBase(ΔB)=ΔB∗p/(1−k∗ΔB∗p∗r)

reverseSellQuote(ΔQ)=ΔQ∗p−1/(1−k∗ΔQ∗r)reverseSellQuote(\Delta Q) = \Delta Q * p^{-1} / (1 - k * \Delta Q * r)reverseSellQuote(ΔQ)=ΔQ∗p−1/(1−k∗ΔQ∗r)

Oracle providers, such as Chainlink, have become key infrastructure of the DeFi ecosystem by pushing off-chain price data on-chain. However, in order to simulate the order book from centralized exchanges without sacrificing capital efficiency, more data than just price are needed. Along with the sPMM algorithm, WOOFi Swap uses a custom on-chain price feed that contains multiple parameters i.e. mid-price ppp, spread sss, and liquidity coefficient kkk. This allows WOOFi Swap to accurately reflect the order book of the centralized liquidity source and provide competitive price quotes for traders.

The mid-price ppp is updated at 0.1% price deviation to provide a much more granular price quote on-chain. The spread sss and liquidity coefficient kkk are time-weighted average values using historical data, so they are updated less frequently but can be updated immediately if market volatility rises.