In the wave of accelerated integration between blockchain and artificial intelligence, ensuring the authenticity and credibility of complex computations and AI inferences has become a key challenge constraining industry development. Lagrange, by integrating ZK co-processors with the DeepProve verification system, has built a completely new verifiable computing architecture, providing a solid trust foundation for on-chain applications and the AI ecosystem.
The ZK co-processor enables efficient and verifiable calls of off-chain data by smart contracts. It not only supports high-performance SQL queries and hybrid analytical computations (OLAP/OLTP) but also achieves seamless integration of on-chain logic and off-chain data in a completely decentralized environment. This means developers can execute complex data tasks without trusting third parties, truly realizing self-verifiable cross-chain computing.
The DeepProve module provides unprecedented reliability assurance for AI applications. This technology can generate cryptographic proofs for the entire AI inference process, ensuring that every output is auditable and verifiable. This not only addresses the trust crisis brought about by the AI black box but also clears obstacles for the deployment of AI models in highly sensitive fields such as finance, healthcare, and government.
Lagrange, by integrating zero-knowledge proofs with AI verifiable mechanisms, has created a proof network that covers both data computation and artificial intelligence. Its significance goes beyond technical optimization, as it lays the infrastructure for the next generation of a trustworthy internet—trust no longer relies on institutions but is derived from mathematics.
