Why can LAYER's TPS crush most Layer1 projects? @Solayer #BuiltonSolayer

As a high-performance re-staking protocol in the Solana ecosystem, LAYER's million-level TPS is achieved through three major technological breakthroughs:

Hardware Acceleration Architecture

LAYER uses FPGA (Field Programmable Gate Array) and SmartNIC (Smart Network Interface Card) for hardware offloading of transaction processing, achieving sub-microsecond data transmission between nodes through RDMA (Remote Direct Memory Access) technology, increasing network throughput to 100Gbps while reducing CPU overhead. This hardware-level optimization shortens the single transaction confirmation time to 1 millisecond, far exceeding the serial processing model of traditional Layer1.

Parallel Execution Engine

Based on the Solana Virtual Machine (SVM) extended architecture InfiniSVM, $LAYER optimizes account conflict detection through dynamic sharding and greedy algorithms, allowing for the parallel processing of independent transactions. Its Software Defined Network (SDN) further achieves load balancing, enabling actual TPS to exceed 500,000, reaching over 30,000 times that of Ethereum.

Capital Efficiency and Network Collaboration

The re-staking model $LAYER reuses validator resources for scenarios such as DeFi and AVS (Active Validation Service), prioritizing high-value transactions through the Staking Weighted Service (swQoS) mechanism to reduce network congestion. Deep integration with Solana's native DeFi protocols (like Raydium) further unleashes the additive effect of ecosystem liquidity on performance.

In the future, with the launch of the InfiniSVM mainnet, $LAYER may become the first re-staking protocol to achieve a theoretical million TPS, redefining the performance boundaries of Layer1.