Diva Staking
@stakediva
How truly decentralized validators are born Let us take you behind the scenes of how Diva works and why it’s such a game-changer. 🧵👇
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Diva Staking
@stakediva
2/ The Brain: The Diva Smart Contract (DSC) ▶ Core Function: Aggregates ETH from stakers into 32 ETH bundles. ▶ RANDAO Magic: Uses Ethereum’s native randomness to generate seeds (e.g., Seed0). ▶ ValidatorID Creation: Each bundle gets a unique ID via cryptographic hashing (keccak256). Why it matters: No single entity controls validator creation—it’s a provably fair lottery.
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Diva Staking
@stakediva
3/ The Guardians: Diva Operators & Nodes ▶ Operators: Stake collateral to run nodes, earning rewards while securing the network. ▶ Nodes: Split into two roles: - Participants: Generate distributed validator keys (BLS standard). - Coordinators: Optimize the process, ensuring efficiency. - Operators’ influence depends on their collateral weight, not node count. This thwarts Sybil attacks and centralization.
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Diva Staking
@stakediva
4/ How Distributed Validators Are Born Step 1: Seed Generation DSC detects 32 ETH pooled → triggers RANDAO to create Seed0 (e.g., 0xBB9b...). Step 2: Node Participation Nodes signal interest via P2P network: “I want to help!” Step 3: Key Generation Selected participants collaborate to create a shared BLS public key. Step 4: Validator Activation Winning key set is submitted to DSC. Validator goes live on Ethereum, secured by distributed nodes.
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