Lagrange Boosts Web3 Computing Performance
Lagrange uses zero-knowledge proof technology to boost Web3 computing performance with astonishing efficiency.
The ZK network off-chains complex computations and generates verifiable proofs on-chain, with confirmation times as low as milliseconds and robust privacy protection.
$LA tokens incentivize node operations, and the community votes through staking. The platform boasts a TVL exceeding 1.5 billion and is backed by $40 million in funding.
In partnership with EigenLayer and StarkNet, it supports multiple chains including Ethereum and Polygon, achieving a throughput of 200 MB/s.
The ZK coprocessor optimizes AI inference and DeFi transactions, making it particularly suitable for real-time, high-frequency scenarios.
The recent testnet API opens up, allowing developers to quickly access and avoid computational bottlenecks. Web3 performance demands are rapidly increasing, and Lagrange's technology enables applications to run more smoothly.
Lagrange acts as a performance engine for Web3, helping DApps break through computational limitations.
Lagrange boosts Web3 computing performance with zero-knowledge proof technology, impressively efficient.
Its ZK network handles complex calculations off-chain, producing on-chain verifiable proofs in milliseconds with strong privacy protection.
The$LA token incentivizes node operation, with community staking and voting, a TVL over $1.5 billion, and $40 million in funding.
Partnering with EigenLayer and StarkNet, it supports Ethereum, Polygon, and more, with 200 MB/s throughput.
The ZK coprocessor optimizes AI inference and DeFi trades, ideal for real-time, high-frequency scenarios.
Recent testnet APIs let developers integrate quickly, bypassing computation bottlenecks.
Web3’s performance needs are surging, and Lagrange’s tech keeps apps running smoothly.
Lagrange is like Web3’s performance engine, breaking DApp computing limits.
