Imagine a Uniswap for Bitcoin with no off-chain processes or custody risk and direct settlement on Bitcoin Layer 1. You just connect your Bitcoin wallet and swap away. And what if you could also connect directly to BTCFi DEXs that offered lending, staking, stablecoins, etc. — just like any DeFi Dapp already built on Ethereum or Solana?
We call it Web3 on Bitcoin and it’s right around the corner.
Omnity Network is excited to share its latest BTCFi supporting infrastructure, Runes Exchange Environment (REE). REE adds a Turing-complete programmability layer to Bitcoin, offering BTCFi developers the tools to replicate EVM & Solana DeFi concepts on REE with native Bitcoin integration.
Let’s get into it.
Bitcoin’s security is unmatched, and the sheer scope of Bitcoin's adoption gives it unparalleled liquidity. But Bitcoin’s functionality is programmably restrained. Its scripting language is rooted in simplicity and resilience, which intentionally limits its capabilities.
Bitcoin’s UTXO (Unspent Transaction Output) model is fundamentally different from the account-based model used by other blockchains like Ethereum and Solana, which can support Turing-complete smart contracts.
In the UTXO model, each transaction output can only be spent once, and transactions must reference specific outputs, making it challenging to manage complex, stateful applications required for DeFi.
Bitcoin simply doesn’t have an execution layer -- until now.
The Runes Exchange Environment (REE) introduces a decentralized execution layer for Bitcoin, enabling builders to innovate DeFi protocols on Bitcoin without forks, bridges, or any new opcodes.
Any DeFi protocol on Turing complete chains like Ethereum and Solana can be replicated on REE. DeFi builders can employ REE’s Exchange-Pool model’s programmability and flexibility to build whatever they can imagine.
Last week, Omnity released the
REE smart contracts embrace Bitcoin’s UTXO model by interacting with it directly, but also providing advanced programmability and self-custody.
Traders don’t need to lock their Bitcoin assets on cross-chain bridges. Instead, they interact with smart contracts by signing a PSBT (Partially Signed Bitcoin Transaction) using their Bitcoin wallets. Transactions are settled on Bitcoin.
PSBT originated from the need to simplify the process of coordinating multi-party Bitcoin transactions. Multisig transactions on Bitcoin have been fundamental to the Bitcoin ecosystem for years, introduced by
PSBT was formalized in Bitcoin Improvement Proposal 174 (
Let’s look at a simplified depiction of PSBT.
In traditional multisig workflows, human participants sign transactions to meet predefined conditions. Typically, one participant acts as the coordinator who aggregates each party’s signatures and then broadcasts the transaction to the Bitcoin network.
REE embraces PSBT and extends so that dApps can directly participate in Bitcoin PSBT signing transactions through composable smart contracts. REE’s Decentralized Multisig Coordination (DMC) synchronizes the PSBT signing of multiple decentralized protocols in a collaborative transaction.
The general process of DMC involves a trader, multiple BTCFi protocols (A, B, and C), and a coordinator on a public blockchain (which is abstracted from the UX.) REE chose ICP, the
A DMC process can be viewed in three phases.
In DeFi, traders usually trade against protocols (smart contracts) as counterparties. But “a trader” doesn’t necessarily have to be a person; it could be an off-chain process or a smart contract. This opens up possibilities for on-chain or off-chain yield aggregators or arbitrage bots.
In REE the role of the “Coordinator” is handled by the REE Orchestrator smart contract. The Orchestrator manages the lifecycle of all REE Tx and validates that all PSBT inputs and outputs comply with REE standards. Using
Let’s put this all together and look at workflows in REE Architecture for Builders, Traders, and smart contracts.
The example above is of a multi-step process for concluding a Bitcoin transaction on REE involving two exchanges, the REE Orchestrator, and a front-end interface. Let’s take it step-by-step.
0.1 Deploy: Builder deploys the Exchange canister.
0.2 Register: Builder registers the Exchange with the REE Orchestrator.
1.1 Inquiry: Trader makes an inquiry from Exchange A.
1.2 Inquiry: Trader makes an inquiry from Exchange B.
2. Construct PSBT: The BTCFi front end constructs a PSBT with assistance from REE TS SDK (Typescript SDK).
3. Trader signs PSBT: Trader signs PSBT with Bitcoin wallet.
4. Invoke: The signed PSBT invokes the REE Orchestrator.
5. Check Inputs: The Orchestrator, relying on the Ord Indexer, checks validates inputs.
6.1 Sign: Exchange A signs PSBT.
6.2 Sign: Exchange B signs PSBT.
7. Broadcast Tx: REE Orchestrator broadcasts the fully signed Tx to the Bitcoin Network.
REE is a general-purpose coordinator, and to coordinate the execution of various DeFi protocols, the protocols need to conform to a specific standard. REE’s standard is the Exchange-Pool model.
As mentioned, Bitcoin’s UTXO model isn’t compatible with the state model of smart contract platforms. So, Omnity developed the Exchange-Pool model for REE which adapts to Bitcoin’s UTXO state management and can be implemented on account-based public chains like ICP.
The Exchange-Pool model is composed of three simple concepts:
Coin: A unit of UTXO-based Bitcoin assets. (BTC and runes are accepted as coins in REE.)
Exchange: A BTCFi protocol that operates on the REE platform.
Pool: A public key (
An exchange can manage multiple pools, each with its coin holding and state. According to exchange-pool logic, traders throw a bag of coins in one pool and get another bag of coins out of the other. Thus, all DeFi protocols must be implemented in the form of a bag of coins in and another bag of coins out (i.e., coin exchange) to participate in REE’s Decentralized Multisig Coordination (DMC).
Runes allow developers to issue stablecoins, utility tokens, governance tokens, meme coins and other community-driven projects directly on Bitcoin. Runes can even represent NFTs through the allocation of unique metadata to specific UTXOs. Because runes are etched directly onto Bitcoin using the OP_RETURN opcode, arbitrary data can be written on-chain without impacting Bitcoin’s UTXO set to create an immutable, secure, tamper-resistant record for each rune which defines and authenticates the rune's properties. Whether sh*tcoins or stablecoins, Casey Rodarmor's design has the potential to unlock Bitcoin’s next major evolution as a programmable, multi-asset blockchain.
AMM DEX
RichSwap, an AMM DEX built by Omnity, will be launched simultaneously with the REE mainnet. As the first exchange on REE, RichSwap serves the following purposes:
RichSwap validates the functionality and performance of the REE platform.
RichSwap is open-source, providing a full-scale example for BTCFi builders.
Upcoming BTCFi protocols may leverage RichSwap to accelerate liquidity bootstrap.
RichSwap presents a token value capture mechanism, which other BTCFi protocols may adopt.
*Although RichSwap is the first exchange, it does not enjoy any privileges. After its launch, REE will quickly transition into an open platform where BTCFi protocols that meet its technical specifications, including AMM DEXs, can be deployed without permission.
We built this cool thing and we want builders to take advantage of it.
The steps to build an exchange on REE are relatively simple.
Deployment: The Builder deploys the exchange canister onto the same subnet as the REE Orchestrator on ICP. (Canisters can call each other cross-subnet, but it adds unnecessary latency.)
Registration: The Builder registers the exchange to the REE Orchestrator.
Fund: Fund the Exchange-Pools.
Exchange builders are responsible for maintenance, upgrades, costs (ICP canisters are recharged with
REE exchanges operate as independent ICP smart contracts that fully utilize the underlying blockchain's capabilities. ICP smart contracts (canisters) are full-stack, scalable contracts with robust storage and web-serving capabilities that can directly read from and write to the Bitcoin network without external bridges.
REE smart contracts support Bitcoin-style composability: Exchanges focus solely on their inputs and outputs. Multisig transactions are orchestrated atomically and are either completed in full or revert entirely which is crucial for DeFi applications. Transactions are processed sequentially, with PSBT signing following a logical pipeline where entities—whether a trader, off-chain process, or ICP smart contract—can provide inputs independently of order. With ICP’s powerful and secure
REE improves Bitcoin performance by 100X. Serial REE transactions are settled on the Bitcoin chain in batches. Since one memory pool transaction can have a maximum of 25 descendants, each Bitcoin block settles up to 25 transactions for a single REE exchange pool. Therefore, 25 can be considered the throughput limit for an individual REE exchange pool.
When price competition is unnecessary, exchange builders may want to add redundancy pools to enhance concurrency. For example, distributing tokens across ten pools for an airdrop with 100,000 recipients would significantly reduce the likelihood of transaction failures caused by multiple users claiming simultaneously.
Builders bear exchange operating costs (
REE eliminates slippage, as PSBT inputs and outputs are locked upon signing. If front-running occurs, the transaction fails, leaving the front-runner exposed to price risk without affecting the trader. (Although theoretically possible, ICP subnet nodes extracting MEV by reordering transactions is unheard of.)
REE introduces secure, Turing-complete smart contracts for Bitcoin without relying on asset bridging or protocol forks. This bridgeless execution model unlocks new possibilities for a trustless and permissionless BTCFi ecosystem, built on Bitcoin’s unmatched liquidity and security.
REE will be launching in Q1 of 2024 with its showcase AMM DEX RichSwap. Development on REE will then open in stages to developers interested in BTCFi.
Interested developers and builders are invited to read the REE Whitepaper and feel free to reach out to the Omnity team for more information. Let’s build Web3 on Bitcoin!
REE is built by the developers of the
The Hub is being adopted quickly and has gained the trust of multiple partners and communities.