Lagrange Coprocessor changes the game for off-chain computation. It is not just an efficiency boost, but a breakthrough in mechanism design.
Here, nodes no longer compete on hardware configuration, but instead participate in the task allocation pool by staking LA. The platform uses the VRF random algorithm to ensure fair task distribution, with every node starting on an equal footing. Even ordinary laptops have a low entry threshold.
When a task is successfully assigned, nodes will use zk-STARK to generate zero-knowledge proofs, uploading the off-chain results along with the proofs on-chain. Smart contracts only require extremely low Gas to verify whether the task has been completed, without needing to trust any single executing party.
The economic system is equally clever: LA serves both as a staking certificate and as a hub for rewards and risk isolation. Nodes that perform exceptionally will receive LA incentives; if errors, malicious actions, or delays occur, part of the stake will be destroyed and enter an insurance pool for ecological restoration and user protection.
Protocol governance and parameter adjustments are fully entrusted to the LA holder community for voting, ensuring that the Lagrange Coprocessor remains on a path of openness, transparency, and continuous self-evolution.
