Lagrange's innovation lies not only in proposing the ZK Coprocessor but also in the exquisite design of its underlying network architecture. @Lagrange Official in the Prover Network of #lagrange breaks down the complex process of proof generation into collaborative work among different roles of nodes, each of which must stake $LA to participate. The core goal of this design is to achieve a balance between decentralization, efficiency, and security.
Nodes are categorized into proof generators, verifiers, and coordinators. Proof generators are responsible for receiving computational tasks and generating preliminary zero-knowledge proofs; verifiers are responsible for cross-validating results to ensure the correctness of each proof; coordinators schedule tasks to ensure reasonable resource allocation. This “division of labor—verification—consensus” link not only improves performance but also reduces the risk of single points of failure.
The introduction of the $LA token is the economic core of system stability. Nodes must stake $LA to gain operational qualifications, with staked assets becoming a guarantee of network security. Malicious or low-quality nodes will face penalties, while honest and high-performance nodes will earn rewards through incentives. This game-theoretic mechanism maintains the network's competitiveness and resilience.
This architecture is particularly important for multi-chain ecosystems. Scenarios such as cross-chain message verification, off-chain AI inference result proof, and DeFi liquidation all rely on high-performance networks. As more chains and applications join, the node architecture and economic model of the Prover Network will become key to scalability and security.
Nodes are categorized into proof generators, verifiers, and coordinators. Proof generators are responsible for receiving computational tasks and generating preliminary zero-knowledge proofs; verifiers are responsible for cross-validating results to ensure the correctness of each proof; coordinators schedule tasks to ensure reasonable resource allocation. This “division of labor—verification—consensus” link not only improves performance but also reduces the risk of single points of failure.
The introduction of the $LA token is the economic core of system stability. Nodes must stake $LA to gain operational qualifications, with staked assets becoming a guarantee of network security. Malicious or low-quality nodes will face penalties, while honest and high-performance nodes will earn rewards through incentives. This game-theoretic mechanism maintains the network's competitiveness and resilience.
This architecture is particularly important for multi-chain ecosystems. Scenarios such as cross-chain message verification, off-chain AI inference result proof, and DeFi liquidation all rely on high-performance networks. As more chains and applications join, the node architecture and economic model of the Prover Network will become key to scalability and security.
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