🔍 What Is Solayer? Redefining Modular ZK Infrastructure for Web3 at Scale
LAYER isn't powering just another L2 — it's the foundation for an entirely new paradigm: a modular ZK-powered coordination layer that blends decentralized proof generation, rollup tooling, and restaking into one high-performance stack.
🧠 The Core: PoWL & Modular ZK Stack
At the heart of Solayer is Proof-of-Workload (PoWL) — a decentralized ZK proving marketplace where verifiers compete to generate proofs at low latency and cost. This offloads compute-heavy ZK tasks and allows developers to launch AVSes, zkRollups, or appchains with near-instant scalability.
Solayer offers:
Solayer Chain: Ethereum-aligned base layer
Proving Network: Staked verifier mesh with slashing
Rollup SDK: Rapid deployment for AVSes, L2s, and ZK apps
⚙️ The Hardware Acceleration Advantage
Solayer's architecture, InfiniSVM, takes things further by integrating FPGA hardware, RDMA, and SDN-based clustering to deliver up to 1M+ TPS with sub-10ms latency. It’s not just modular—it’s turbochargedall_info.
👀 My Take
While most modular projects focus on software coordination, Solayer is building a trustless coordination engine backed by hardware and economic incentives. It’s not trying to be the next rollup—it’s building the system to run all of them, optimized for AI agents, high-frequency games, and financial infra.
The result? A platform that doesn’t just scale Solana—it extends it into a shared security market for AVSes, à la EigenLayer, but purpose-built for speed.
🗨️ Ready to build?
Would you deploy a ZK app on Solayer’s stack?
How do you see LAYER competing in a modular, restaking-heavy future?
Drop your thoughts 👇
