In the world of blockchain, storage and transactions are verifiable, but the verifiability of computation remains a bottleneck. Smart contracts can only execute simple logic; AI reasoning and complex model computations are nearly impossible to complete on-chain.
@Lagrange Official is changing this status quo.
Lagrange has built a modular zero-knowledge computing layer, which submits zero-knowledge proofs generated from off-chain computations to the chain for verification through the ZK Coprocessor, ensuring that the computation results are trustworthy and accurate, without the need for repeated execution on-chain. This not only greatly saves gas but also makes complex computations possible within the blockchain ecosystem.
Imagine when DePIN needs real-time resource allocation, when AI Agents perform deep reasoning off-chain, and when financial derivatives pricing models need to be executed reliably on-chain, the ZK Coprocessor provided by Lagrange can become their core computational guarantee.
#lagran $LA has endowed blockchain with the capability of 'verifiable computation', forming a truly trustless computing network. This not only expands the boundaries of blockchain but also makes the integration of AI and Web3 a reality.
In the future, every chain can call upon Lagrange's computing services to possess nearly unlimited verifiable computing capabilities, propelling decentralized applications toward a new era of prosperity.