Rongchai Wang
Nov 17, 2025 15:20
The Decentralized Infrastructure Network (DIN) launches on EigenLayer, introducing cryptoeconomic security for RPC infrastructure, addressing centralization issues in web3.
The Decentralized Infrastructure Network (DIN), a Consensys-backed initiative, has launched its Autonomous Verifiable Service (AVS) on the EigenLayer mainnet. This marks a significant development in decentralized infrastructure, as DIN becomes the first large-scale RPC marketplace to utilize EigenLayer’s restaking and slashing mechanisms. By doing so, it aims to tackle one of web3’s critical vulnerabilities: the centralization of infrastructure.
The Challenge of Centralized Infrastructure
Despite the decentralization ethos of web3, a significant portion of RPC traffic is handled by a few centralized providers. This creates systemic risks, as any downtime in major providers can impact wallets, dApps, and DeFi protocols, affecting millions of users. DIN addresses this by establishing a competitive, decentralized marketplace of RPC node providers validated through an open network, secured by Ethereum restaking via EigenLayer.
EigenLayer’s Role in Decentralization
EigenLayer’s AVS model is crucial to DIN’s operations, providing the cryptoeconomic foundation needed for decentralized RPC at scale. Through ETH and stETH restaking, node operators serving RPC requests have real economic stakes in infrastructure reliability. This model transforms RPC services from trust-based to cryptoeconomically secured systems.
The system operates through three key mechanisms:
Economic Security Through Restaking: Node operators are backed by restaked ETH, turning infrastructure provision into a service with tangible economic guarantees.
Performance Verification Through Watchers: Independent watcher nodes monitor RPC provider performance, ensuring accountability for service quality.
Accountability Through Slashing: EigenLayer’s slashing mechanism enforces high reliability among node providers by imposing economic penalties for non-compliance with service agreements.
Proven Scale and Integration
DIN is already operational at scale, integrated into platforms like MetaMask and Infura, and handling over 13 billion requests monthly across more than 30 networks, including Ethereum L1 and several Layer 2s. The network’s incentivized testnet has shown impressive metrics, such as a >99% success rate for RPC operations and median latency under 250ms.
Implications for Ethereum and Web3
DIN AVS is a crucial demonstration of EigenLayer’s potential to extend Ethereum’s security to web3 infrastructure. By implementing restaking and slashing in RPC operations, DIN provides developers with cryptoeconomic guarantees, fulfilling web3’s promise of end-to-end verifiability without relying on trusted infrastructure.
For more details, visit the EigenCloud blog.
Image source: Shutterstock
