The core advantages of the Lagrange Network lie in its high availability and elastic scalability. Multiple nodes collaborate to complete zk computations, which not only accelerates proof generation but also decentralizes risks and reduces the likelihood of single points of failure. Nodes ensure their performance capabilities through economic incentive mechanisms; failure to return proofs in a timely manner will face staking penalties, thus forming robust service constraints.
For developers, there is no need to deploy complex zkProver or manage hardware resources, allowing them to directly access verification data. This means that even small teams can invoke zk capabilities on any chain, providing underlying computational support for multi-chain applications. The combination of performance, stability, and decentralization enables the entire ecosystem to handle more high-density computational demands, such as zkML, on-chain AI, or Rollup computations.
Through a networked service model, Lagrange breaks the limitations of traditional centralized provers. Computational resources are no longer confined to a single project but form a shared, efficient, and scalable zk computation market. This advantage not only enhances the efficiency of existing applications but also provides foundational support for the future development of multi-chain ecosystems.
