Ethereum is set to undergo a significant transformation with the introduction of L1 zkEVM, as outlined in a new roadmap draft called Strawmap. The roadmap, shared by Ethereum Foundation researcher Justin Drake, details five core goals for the Ethereum L1 protocol, including achieving 10,000 TPS via zkEVM, implementing quantum-resistant cryptography, and enabling native privacy-preserving transfers. The plan also includes seven protocol forks by 2029, aiming to enhance Ethereum's scalability and security. The shift towards L1 zkEVM represents a major evolution in Ethereum's narrative, moving from a focus on L2 scaling solutions to integrating zero-knowledge proof technology directly into the consensus layer. This transformation will allow Ethereum to become a verifiable computer, enhancing its role as the "root of trust for verifiable computation." The roadmap outlines eight technical workstreams necessary for this transition, including EVM formalization, replacing hash functions, and implementing Verkle Trees, all aimed at improving performance without compromising decentralization. This ambitious plan positions Ethereum to redefine its value proposition, potentially impacting the role of L2s and solidifying its status as a foundational layer for the Web3 ecosystem. The full implementation of L1 zkEVM is expected by 2028–2029, promising a future where Ethereum serves as a fast, secure, and private global settlement layer.