How does Lagrange make on-chain computation more transparent?
Lagrange uses zero-knowledge proofs to reshape Web3 computation, delivering both transparency and efficiency.
The ZK network combines off-chain computation with on-chain verification to generate trusted proofs, protecting privacy while delivering millisecond-level speeds.
$LA tokens incentivize node operations, and the community votes through staking. The platform boasts a TVL exceeding 1.5 billion and is backed by $40 million in funding.
Partnering with EigenLayer and StarkNet, it enables seamless cross-chain interaction and supports multiple chains, including Ethereum and Polygon.
The ZK coprocessor optimizes DeFi and AI inference, with a data throughput of 200 MB/s, making it suitable for high-frequency scenarios.
A recent community event offering points for airdrops attracted over 500,000 active addresses. Web3 requires transparent computation solutions, and Lagrange's ZK technology makes trust easier.
Lagrange acts as an on-chain computational magnifying glass, helping users see the truth behind the data.
Lagrange reshapes Web3 computing with zero-knowledge proofs, transparent and efficient.
Its ZK network blends off-chain computation with on-chain verification, producing trusted proofs in milliseconds while protecting privacy.
The$LA token incentivizes node operation, with community staking and voting, a TVL over $1.5 billion, and $40 million in funding.
Partnerships with EigenLayer and StarkNet enable seamless cross-chain interactions, supporting Ethereum, Polygon, and more.
The ZK coprocessor optimizes DeFi and AI inference, hitting 200 MB/s throughput for high-frequency use cases.
Recent community events offer points for airdrops, drawing over 500,000 active addresses.
Web3 craves transparent computing solutions, and Lagrange’s ZK tech simplifies trust.
Lagrange is like an on-chain computation magnifying glass, revealing data’s truth.