Blockchain has always had a contradiction: the higher the degree of decentralization, the lower the performance tends to be. This is due to the limitations of single-chain architecture in the execution environment; no matter how strong the processing capability, it is difficult to break through physical bottlenecks. Solayer's InfiniSVM proposes a different solution—by using SDN (Software Defined Networking) and RDMA (Remote Direct Memory Access) technology, the execution environment is expanded into a multi-cluster parallel architecture.
The benefit of this distributed architecture lies in "horizontal scaling." In the past, the TPS cap was determined by the performance of a single node, while Solayer breaks the bottleneck through cluster parallelism. With improvements in hardware and networks, the number of clusters can continue to increase, thus achieving continuous performance enhancement.
This is similar to the process of traditional internet transitioning from single server machines to cloud computing clusters, which not only addresses performance issues but also enhances stability and fault tolerance. For blockchain, this is the first time that the concept of large-scale distributed computing has been introduced into the underlying virtual machine.
Therefore, the value of InfiniSVM is not just in million TPS, but in its "unlimited" scaling potential. This provides architectural assurance for the future of blockchain to support larger-scale applications.
