With the development of modular blockchain, data verifiability has gradually become a new core of infrastructure. Lagrange, with its unique ZK data indexing and proof mechanism, has built a data access paradigm of 'offline processing and on-chain verification'. In this mechanism, contracting parties do not need to directly read massive state data, but instead verify through ZK proofs provided by Lagrange, effectively alleviating the bottleneck of on-chain state reading.

Lagrange's tech stack is built on EVM compatibility, supporting various scenarios such as L2, AppChain, and DePIN. From the recently disclosed roadmap, it is expanding cross-chain data aggregation capabilities, including querying and aggregating state data from multiple chains such as Ethereum, Arbitrum, Polygon, and BNB Chain. Meanwhile, its Coprocessor system will also provide standardized API interfaces for developers to quickly call and generate query tasks.

Currently, several blockchain games and high-frequency trading protocols have indicated that they will integrate Lagrange's services to build on-chain point systems and order book reconstruction. This indicates that it is not only suitable for DeFi high-speed processing scenarios but also widely supports the state reading and historical data verification needs of on-chain Web3 applications.

In the future, Lagrange may also become a central hub similar to 'data Oracle + ZK proof' in the modular world, playing an irreplaceable role in on-chain trusted data processing. #Lagrange @Lagrange Official $LA