The off-chain task system of the Lagrange Coprocessor brings powerful scalability and trust assurance to the blockchain ecosystem through the combination of technology and economic mechanisms. Nodes only need to stake LA to apply, and the platform fairly distributes tasks using a VRF random algorithm, giving each node a chance to receive off-chain tasks without the need for high-performance equipment.
After receiving a task, the node completes complex data processing or AI computations off-chain and generates a zk-STARK proof. The proof is uploaded on-chain along with the results, and the smart contract verifies it with extremely low Gas fees, eliminating the need for full recalculation, greatly enhancing efficiency and security.
LA, as the core asset, plays multiple roles including task payments, node staking, incentives, and penalties. Nodes that successfully complete tasks can earn rewards, while errors or delays automatically destroy part of the stake, with the remainder entering an insurance pool to isolate risks. All protocol parameters and governance processes are decided by votes from the LA holder community, making the mechanism transparent and decentralized.
This model allows trusted off-chain computing to become a new infrastructure for blockchain applications, promoting the sustainable development of the ecosystem.