Core Protocol Design
3.1 Multi-Chain Federation Architecture Design (ETH / BSC / XONE / SOL)
The Olympus Pact architecture is based on multi-chain native deployment rather than single-chain binding. Through EVM compatibility and cross-chain adaptation mechanisms, it achieves parallel operation on mainstream public chains such as ETH, BSC, XONE, and SOL. This “multi-chain federation” architecture not only expands the protocol’s reach radius across different user ecosystems but also substantively solves issues like uneven distribution of on-chain application traffic, high Gas costs, and asset silos.
Each Olympus Pact instance deployed on a chain will connect to the main signer network and the unified treasury asset protocol, while also supporting localized liquidity incentive strategies. Cross-chain states are synchronized in real time through a heterogeneous communication protocol to ensure that key data such as “governance identity,” “staking status,” and “PHI dividend” are uniformly accessible. In this way, Olympus Pact is no longer limited by the resources and ecosystems of a single public chain but becomes a cross-chain collaborative financial sovereignty network.
3.2 Modular Financial Component System
The underlying protocol of Olympus Pact adopts a modular design, where each functional section is an independently upgradable and decoupled smart contract component. This architecture gives the protocol strong maintainability, scalability, and compositional flexibility.
3.2.1 Free Trading Engine (DEX Engine)
Olympus Pact has a built-in decentralized trading engine, allowing users to exchange PHI with stablecoins, RWA assets, and on-chain assets directly through the protocol’s native interface. The protocol can dynamically adjust fees and supported assets through DAO signatures, while deploying its own liquidity pools (POL) to enhance stability and slippage control capabilities.
3.2.2 Bond Distribution Protocol (Bond Engine)
Bond issuance becomes a core path for capital supplementation within the Olympus Pact ecosystem. Through the modular bond protocol, users can purchase PHI below market price, and the raised assets are injected into the treasury, forming an endogenous growth closed loop. Referrers can receive a 3% sales reward, with linear unlocking over 5 days to prevent short-term sell pressure.
3.2.3 Stable Asset System (Stable Engine)
The protocol introduces stablecoins (USDC/DAI) as anchor assets and plans to integrate asset-pegging mechanisms based on gold, carbon emissions, and RWA mapping. Through a multi-asset reserve matrix, the protocol effectively avoids the systemic risk brought by the de-pegging of any single stablecoin.
3.2.4 RWA Gateway (Real World Asset Access Module)
This module is specifically designed to onboard real-world asset mappings, such as gold ETFs, carbon credit certificates, sovereign bonds, etc. All RWA entries are custodial under the Olympus Pact treasury asset management protocol and showcase asset transparency via verifiable on-chain anchoring mechanisms.
3.3 Signer Network
Olympus Pact replaces traditional governance “voting” with “signing.” Every user who interacts with the protocol, stakes, or participates in bonds will leave a signing behavior on-chain, thereby generating a “governance signature.”
3.3.1 DID Digital Identity System
The protocol has a built-in DID system that generates a unique signer identity for each user, binding staking history, contribution weight, and governance behavior. Users are no longer anonymous participants but citizens who sign and hold “on-chain sovereignty.”
3.3.2 Signature Governance Mechanism
Governance no longer relies on Snapshot or external forums but directly confirms sovereign will through on-chain signatures. Key protocol parameter changes—such as dividend rates, asset weights, and module activation pace—can all be proposed and executed through the signature governance mechanism.
3.3.3 Sovereign Credit System
The signer identity is also linked to a “sovereign score,” calculated from staking behavior, bond participation, governance signing, and protocol promotion. This score can be used to participate in high-level parliamentary governance, obtain special DAO privileges, and even unlock future ecosystem token distributions.
3.4 Treasury System
The core support of Olympus Pact comes from the on-chain treasury, which carries all user asset inflows, protocol dividends, RWA reserves, and treasury expansion regulation functions.
3.4.1 Diversified Asset Reserves
The treasury not only accepts on-chain assets such as PHI and USDC but also introduces RWA-type assets such as gold, carbon assets, and ETF products pegged to stablecoins, forming a distributed and diversified sovereign asset pool. The layered asset management system ensures fund security and resists systemic risks.
3.4.2 Centralized Treasury Payout and Warning Mechanism
All staking returns and incentive rewards are uniformly paid by the treasury. The protocol deploys a “treasury warning mechanism” to monitor reserve sufficiency. If reward release nears the system’s warning threshold, adjustment mechanisms (e.g., reward release delay, bond issuance modification) will be triggered to ensure ecosystem balance.
3.5 Dual-Track Adjustment Mechanism and Yield Release System
Olympus Pact adopts a “yield cap + burn-to-unlock” dual-track model to ensure staking rewards are not over-released while maintaining deflationary pressure within the system.
When the cumulative return of an address reaches 500% of the staking principal, the protocol’s balancing mechanism is triggered, requiring the destruction of an equivalent amount of PHI to initiate a new dividend cycle. The more users burn, the shorter the yield release period becomes—with a minimum of 15 days—balancing ecological safety with user expectations.
3.6 Protocol Governance Charter and Parliamentary Model
Governance is not an accessory but the core institutional logic of Olympus Pact. All user signing behaviors serve as the basis for parliamentary voting rights and participation in decision-making.
The protocol’s governance structure is divided as follows:
Signer Parliament: All users holding sovereign scores automatically become members of parliament;
Proposal System: Governance proposals are initiated by core signers;
Execution Nodes: Protocol deployers and signer consensus voting determine proposal effectiveness.
The governance charter has already been deployed on-chain via smart contracts. Any signer can verify and participate, ensuring transparency of protocol institutions and the clear confirmation of sovereign ownership.
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