Solayer Labs announced the 2025 roadmap for Solayer InfiniSVM, a hardware-accelerated blockchain designed to improve scalability and performance.
On January 7, Solayer Labs, a restoration protocol on Solana, clarified that the architecture of InfiniSVM is based on shared virtual memory and aims to build a globally distributed state machine with high-throughput functionality and low latency, capable of executing complex decentralized operations. applications.
The InfiniSVM blockchain will distribute workloads across specialized hardware accelerators optimized for specific tasks such as signature verifications, transaction filtering, pre-execution simulation, and data storage. This sets it apart from the traditional model of vertical scaling and piecemeal accumulation. The architecture works with a hybrid proof-of-authority and stake consensus mechanism coupled with remote direct memory access communication for speed improvements. These features are expected to strengthen the blockchain when it comes to efficiently handling high transaction volumes.
Previously, Solana faced network congestion while implementing the validator client. Solayer Labs’ roadmap will therefore mainly focus on improvements to make it easier for developers and users by coupling within the blockchain on post-transaction logic to facilitate accounting, arbitrage and liquidation activities. Additionally, cross-chain communications and OAuth integration are expected to facilitate the development process without compromising the security of operations.
Normally, these processes require separate systems or additional coding, which can increase the workload and time requirements of developers or even become tedious. Integrating these features further into the blockchain saves developers time and effort, resulting in more efficient applications.
For the everyday user, this will mean a faster and smoother experience. For example, let’s say someone trades or manages assets. In this case, the blockchain will automatically take care of backend functions, tracking balances in real time or achieving the best prices when fulfilling orders. Users will not have to wait for third-party systems to complete these functions. These features could potentially improve application efficiency.
The roadmap also includes the use of shared zero architectures and hash functions to work on optimal scaling to avoid bottlenecks. A shared nothing architecture is completely independent of the systems themselves; that is, no part of the system can slow down or crash the rest. The roadmap highlights the growing importance of hardware-accelerated design in blockchain research.
