Lagrange: Building Trust With Zero-Knowledge Infrastructure for Web3Blockchain was designed to remove trust but now it needs to prove everything. Enter Lagrange, a Web3 project reimagining verifiable computing using Zero-Knowledge Proofs (ZK). By turning off-chain computations into cryptographic proofs, Lagrange ensures that what happens off-chain can be verified on-chain securely, quickly, and at scale. Here’s what sets it apart: ZK Coprocessor: The heart of Lagrange’s architecture. It processes complex computations off-chain and generates proofs that can be verified anywhere on-chain cutting costs and preserving trust. Cross-Chain Interoperability: Lagrange isn’t limited to one chain. It works across multiple ecosystems, ensuring flexible deployment and seamless proof validation. AI + Verifiability: As AI becomes embedded in Web3, Lagrange brings cryptographic integrity to AI inference an emerging field where transparency is crucial. Decentralized Compute Network: Built in collaboration with EigenLayer, the network uses staked nodes to perform tasks and generate proofs. These nodes bid for work, and are rewarded in $LA , the network’s native token. The $LA token plays a critical role securing the network, governing the system, and aligning incentives for reliable proof generation. In a world where data, AI, and computation are becoming decentralized, Lagrange is the protocol ensuring it all stays provable. It’s not just about scaling it’s about tr usting what scales. #lagrange @Lagrange Official