TLDR:
- ZK-EVMs achieved production-grade performance at alpha stage with PeerDAS live on Ethereum mainnet today.
- Ethereum now combines high bandwidth, consensus, and decentralization, solving the blockchain trilemma.
- Gas limit increases begin in 2026, with ZK-EVMs becoming primary block validation by 2027 through 2030.
- Distributed block building remains long-term goal to reduce centralization and improve geographic fairness.
ZK-EVMs have achieved production-grade performance at the alpha stage, marking a turning point for Ethereum’s scalability roadmap.
Ethereum co-founder Vitalik Buterin announced that the combination of zero-knowledge Ethereum Virtual Machines and PeerDAS on mainnet represents a fundamental shift for the network.
This development addresses the long-standing blockchain trilemma of achieving decentralization, consensus, and high bandwidth simultaneously. The milestone comes after a decade of research and development.
Breaking the Blockchain Trilemma with Live Technology
Buterin explained how Ethereum has evolved beyond previous peer-to-peer network models. BitTorrent offered high bandwidth and decentralization but lacked consensus mechanisms.
Bitcoin provided decentralization and consensus yet suffered from limited bandwidth due to its replicated rather than distributed structure. Ethereum now combines all three elements through PeerDAS and ZK-EVM integration.
The announcement emphasized that this achievement exists in live running code rather than theoretical proposals. PeerDAS currently operates on Ethereum mainnet, providing data availability sampling functionality.
ZK-EVMs have reached production quality in terms of performance, with remaining work focused on safety enhancements. Both components working together enable the network to process significantly more data while maintaining security and decentralization.
This technical breakthrough concludes a journey that began around 2015 with early data availability sampling research. ZK-EVM development efforts started approximately in 2020.
Buterin shared his original GitHub commit on data availability and erasure coding to illustrate the extended timeline.
The convergence of these technologies now positions Ethereum to support substantially higher throughput.
Roadmap Through 2030 and Distributed Block Building Goals
The implementation timeline spans the next four years with specific milestones. In 2026, Ethereum will implement large gas limit increases independent of ZK-EVM requirements through BALs and ePBS.
The network will also see initial opportunities for running ZK-EVM nodes. This phase focuses on expanding capacity while maintaining network stability.
Between 2026 and 2028, developers will introduce gas repricings and state structure modifications. Execution payloads will move into blobs alongside other technical adjustments.
These changes aim to make higher gas limits operationally safe. The gradual approach allows the network to adapt incrementally rather than through disruptive upgrades.
From 2027 to 2030, ZK-EVMs will become the primary block validation method across Ethereum. This transition enables further substantial gas limit increases. Buterin also addressed distributed block building as a long-term objective.
The goal involves preventing full block constitution in a single location, reducing centralized interference risks. This can occur through in-protocol solutions like expanded FOCIL or through distributed builder marketplaces, improving geographical fairness for transaction inclusion.
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