Lagrange Coprocessor makes off-chain computation a key infrastructure for the blockchain ecosystem. All nodes only need to stake LA tokens to sign up for participation. The platform uses a VRF random algorithm to allocate tasks, ensuring that each node has a fair opportunity without relying on high-performance equipment.
After task allocation, nodes perform data computation or AI inference off-chain and automatically generate zk-STARK proofs. The proofs and results are synchronously uploaded on-chain, and the smart contract can complete verification with extremely low Gas, eliminating the need for recalculation processes, greatly enhancing efficiency and security.
LA serves as the main axis of the economic system, covering task payments, node staking, incentives, and risk isolation. Nodes that complete tasks can receive rewards, while those that make mistakes or cause delays automatically destroy a portion of their stake, with the remaining funds entering an insurance pool. Protocol parameters and governance are all decided by community voting of LA holders, achieving openness and decentralization of the mechanism.
The Lagrange Coprocessor architecture supports the realization of trusted off-chain computation and provides strong support for diversified blockchain applications.
