Lagrange's vision is to build the zk Layer0 of the Web3 world, dedicated to enabling any chain, any application, and any developer to efficiently and securely access zk computing power. Its core network consists of multiple zero-knowledge proof nodes, supporting on-demand calls, load balancing, and SLA availability assurance mechanisms, achieving true zk computing as a service (ZKaaS). This is an innovative attempt to leap from 'computing modules' to 'computing networks', laying the foundation for future zkMass Adoption.

Currently, the project focuses on serving zkRollup, AI zk inference, oracle off-chain verification, and other directions. The technical solutions include a flexible zk Circuit construction toolchain, a programmable task scheduler, and zk proof validators, forming a complete closed loop. Among these, the integration of zkSync is a key node, where this project delegates most of the proofs to Lagrange for execution, demonstrating the industry's high recognition of its reliability and accelerating the realization of the zk decentralized service network.

In terms of the economic model, Lagrange has constructed a security model based on the EigenLayer restaking mechanism and encourages more nodes to participate in zk workload processing through incentive mechanisms. Developers pay for proof service fees, while nodes receive rewards through stable and fast services. Task execution failures will result in a penalty of staked ETH, thus forming a dual-driven approach of economic incentives and constraints to ensure long-term high availability of the network.

The technology of Lagrange is continuously evolving, with plans to support more zkVM and circuit types in the future, and to open more interfaces for AI model verification, inter-chain state synchronization, and other high-complexity use case calls. As a key component in building Web3 trusted computing, Lagrange is defining the standards for the next generation of composable zk computing networks. #Lagrange @Lagrange Official $LA