The mechanism of Lagrange Coprocessor injects flexibility and vitality into the off-chain computing ecosystem. Task allocation is completely decentralized: nodes stake LA tokens to sign up, and the system allocates tasks through a VRF random algorithm, allowing any device to have the opportunity to receive tasks, regardless of its strength.
After being assigned a task, nodes process data off-chain and generate zk-STARK proofs. This proof and the results are uploaded together, requiring only a very low Gas verification process on the on-chain smart contract, eliminating the need for repeated computations and greatly improving efficiency. The entire off-chain computing process achieves full transparency and verifiability from node selection to result delivery.
LA is not only used for task staking in the system, but it is also key to node rewards, penalties, and risk isolation. Nodes that execute tasks satisfactorily are rewarded, while errors or malicious actions automatically destroy a portion of the staked LA, with the remaining portion injected into the insurance pool. Parameters and governance rights are voted on by the LA holder community, truly achieving user co-governance.
This makes the Lagrange Coprocessor a representative protocol for highly elastic off-chain computing, providing strong underlying support for Web3 innovative projects.
