Lagrange is increasingly naturally combining "zero-knowledge proofs" with "modular blockchains." As a set of infrastructure aimed at inter-chain interoperability, Lagrange provides an efficient ZK Coprocessor, allowing any Rollup to securely compute off-chain data and submit it back on-chain. This approach not only enhances computational efficiency but also ensures the integrity and verifiability of the results.

Currently, most blockchains rely on the static reading of on-chain state and external oracle data, while Lagrange's advantage lies in its ability to read Merkle Proofs across chains and submit them verified through ZK, avoiding reliance on third-party data sources and enhancing overall security. The complex inter-chain cross-calling process of the past can now be completed with just a single Coprocessor request.

More importantly, Lagrange is not an isolated system but can be embedded into any Rollup architecture—be it OP Stack, Polygon CDK, or Arbitrum Orbit. Developers can integrate it as a data verification module, easily achieving multi-chain interactions. This design philosophy aligns perfectly with the development direction of modular blockchains: everything is pluggable.

From a future perspective, Lagrange is set to become a standard component of data bridges between Rollups. Whether for on-chain finance, cross-chain identity, or modular combinatorial computing scenarios, the universal computation layer provided by Lagrange is an indispensable part. Its combination of ZK + Coprocessor is a new cornerstone for Web3 computing architecture.#Lagrange @Lagrange Official $LA