While the market is still debating the performance bottlenecks of Layer 1, Solayer's InfiniSVM has provided an answer with empirical data—achieving millions of TPS, unlimited scalability, and sub-second latency through custom hardware acceleration, not only redefining the technical boundaries of public chains but also providing the necessary technical foundation for institutional-level applications in on-chain finance. The logic behind this is simple: while Ethereum is still entangled in sharding technology and Solana's conventional architecture is constrained by physical limits, Solayer has chosen to directly reconstruct the underlying Virtual Machine with hardware acceleration. Will this dimensionality reduction strike become the standard configuration for the next generation of public chains?

Hardware Acceleration: From the Laboratory to Barbaric Growth of Millions of TPS
The core breakthrough of InfiniSVM lies in offloading compute-intensive tasks to FPGA (Field Programmable Gate Array) and ASIC (Application Specific Integrated Circuit) hardware layers. This design allows for a more than 50-fold increase in smart contract execution efficiency, with actual network throughput stabilized at over 1.2 million TPS, and latency controlled within 300 milliseconds—this figure is already close to the response speed of the Nasdaq exchange. In contrast, the peak TPS of the Solana mainnet is around 4000, while Ethereum L2 generally hovers between 2000-5000 TPS. The performance advantage of InfiniSVM is not an incremental improvement but a magnitude crushing superiority.
More importantly, its horizontal scaling capability. Through dynamic sharding technology and hardware resource pooling, InfiniSVM can automatically allocate computing power based on demand.