How can $LAYER utilize Solana's high performance to build the next-generation Web3 infrastructure?
LAYER, as the re-staking protocol of the Solana ecosystem, has built the core framework of the next-generation Web3 infrastructure by integrating Solana's high throughput (50,000+ TPS) and low latency features. Its technical architecture focuses on three key directions:
1. Hardware Acceleration and Scalability
The InfiniSVM technology developed by LAYER uses FPGA and smart network cards to achieve hardware acceleration, aiming for a million-level TPS and 100Gbps network bandwidth. It optimizes data transmission efficiency through Software Defined Networking (SDN) and Remote Direct Memory Access (RDMA), significantly enhancing the performance limits of the Solana virtual machine.
2. Capital Efficiency and Liquidity Reuse
Through liquidity staking tokens sSOL and yield-bearing stablecoins sUSD, $LAYER transforms staked assets into cross-chain usable liquidity, allowing users to participate simultaneously in PoS validation, MEV capture, and AVS services with a single stake, increasing the overall annualized yield to 10%-17%.
3. Inherent Security and Ecological Synergy
LAYER's unique staking weighted service (swQoS) mechanism dynamically allocates block space priority based on the amount staked, enhancing network security while providing a low-latency environment for DApps. Its deep integration with Solana's native DeFi protocols (such as Raydium and Orca) further unleashes ecological synergy effects.
In the future, with the launch of the InfiniSVM mainnet, LAYER may become a key hub connecting high-performance infrastructure and diverse applications within the Solana ecosystem, promoting the evolution of Web3 infrastructure towards efficiency, security, and capital optimization.
