Lagrange: Transforming Blockchain Infrastructure with Zero-Knowledge Proofs
Introduction
Lagrange is a next-generation modular infrastructure protocol built to deliver verifiable computation and secure cross-chain interoperability through zero-knowledge (ZK) technology. It enables decentralized applications (dApps) to access, process, and verify data across multiple blockchains with high speed, scalability, and minimal trust requirements.
Core Components
1. ZK Prover Network
Lagrange operates a decentralized network of over 85 top-tier provers who generate ZK proofs on demand. When a dApp requests proof of correct computation, the Prover Network performs the workload off-chain and returns a compact, verifiable proof to the blockchain — removing the need for on-chain re-execution.
2. ZK Coprocessor
This system allows developers to run complex computations — such as SQL queries over historical blockchain data — off-chain. The results are proven with ZK proofs and verified on-chain, drastically reducing computational strain and gas costs.
3. DeepProve zkML Library
Lagrange’s DeepProve system brings zero-knowledge proofs to machine learning. It enables developers to prove that AI models produce correct outputs without revealing the model or its inputs, ensuring both security and privacy.
Use Cases
Cross-Chain Interoperability – Enables secure, bridge-free data and value transfer across blockchains.
AI Validation – Verifies AI model outputs while protecting sensitive information.
Scalability – Offloads heavy computations to reduce on-chain congestion and improve dApp performance.
Tokenomics
The native token, $LA, powers the network by covering proof generation fees and serving as a staking asset, rewarding participants who strengthen network security and efficiency.
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