# Сопутствующие статьи по теме zkEVM

Новостной центр HTX предлагает последние статьи и углубленный анализ по "zkEVM", охватывающие рыночные тренды, новости проектов, развитие технологий и политику регулирования в криптоиндустрии.

Ethereum Founder Returns With Fix For Major Network Problems Amid Price Rebound

Vitalik Buterin, founder of Ethereum, has announced major network upgrades to address long-standing challenges, coinciding with an 8% price surge for ETH this year. Key developments include Zero-Knowledge Ethereum Virtual Machines (zkEVMs) reaching an alpha stage and Peer Data Availability Sampling (PeerDAS) going live on the mainnet. Buterin states these innovations solve the blockchain "trilemma" by achieving complete decentralization, consensus, and high bandwidth simultaneously. Looking ahead, Buterin outlined a roadmap for 2026-2030, which includes increasing gas limits, restructuring state, and integrating execution payloads. By the end of the decade, zkEVMs are expected to become the primary method for block validation, enabling significant scalability. He also revealed plans for distributed block building to prevent centralization and promote geographical fairness, ensuring no full block is ever assembled in a single location.

bitcoinist01/06 22:31

Ethereum Founder Returns With Fix For Major Network Problems Amid Price Rebound

bitcoinist01/06 22:31

Ethereum: Buterin Revives ‘Milady’ For A World Computer Push

Ethereum co-founder Vitalik Buterin marked the start of 2026 by switching his profile picture to a Milady-style avatar and publishing a post refocusing Ethereum’s mission on its original ambition: becoming a "world computer" for an open internet. He highlighted 2025 progress such as higher gas limits, improved node software, and zkEVM advancements, but emphasized that Ethereum ecosystem must prioritize its core mission over short-term trends like memecoins or transaction fee-driven incentives. Buterin defined the "world computer" as a platform for decentralized applications resistant to censorship, fraud, and third-party interference—capable of operating even if developers abandon them or centralized services fail. He stressed that scalability, usability, and genuine decentralization are non-negotiable requirements for both base and application layers. The post served as a call to action, urging the community to aggressively improve infrastructure, client diversity, and dapp resilience to fulfill Ethereum’s foundational vision.

bitcoinist01/02 11:32

Ethereum: Buterin Revives ‘Milady’ For A World Computer Push

bitcoinist01/02 11:32

Ripple Chiseled a Crack in the Wall, But Swift Tore Down the Entire Wall

At the Sibos 2025 conference, Swift announced a major evolution of its financial infrastructure by integrating a blockchain-based shared ledger to support tokenized assets and enable secure, real-time, and interoperable global transactions. The new system, built on Consensys' Ethereum Layer 2 network Linea, uses zk-EVM rollup technology to reduce costs and settlement times while meeting banking security standards. Over 30 major banks, including JPMorgan and Citibank, are participating in the pilot. The article reflects on Ripple’s long-standing effort to challenge traditional cross-border payments using XRP and RippleNet, which has seen adoption in retail and corporate remittances despite earlier regulatory challenges. However, Swift’s move represents a broader and more systemic shift. Unlike Ripple’s XRP-dependent model, Swift’s ledger is asset-agnostic, supporting CBDCs, stablecoins, and fiat currencies, and leverages its existing network of over 11,000 institutions. This transition marks a convergence of traditional and decentralized finance, enabling 24/7 settlement, reducing reliance on pre-funded accounts, and potentially freeing up trillions in trapped capital. By adopting a neutral, interoperable, and highly scalable blockchain framework, Swift is positioned to redefine global value transfer—moving from a legacy telegraphic model to a digitally-native, mathematically-verified system.

深潮12/23 02:52

Ripple Chiseled a Crack in the Wall, But Swift Tore Down the Entire Wall

深潮12/23 02:52

Ethereum Completes Another Key Technical Advancement, Can It Achieve a Leap Forward by 2026?

The Ethereum Foundation (EF) has announced a major technical breakthrough in zkEVM development, achieving a dramatic reduction in block proof generation time—from 16 minutes to just 16 seconds—with a 45-fold decrease in cost. Certain zkVMs can now prove 99% of mainnet blocks in under 10 seconds on target hardware. However, EF emphasizes that raw speed is meaningless without proven security. Several mathematical conjectures underlying popular STARK-based zkEVMs have recently been disproven, reducing their security guarantees. The core focus has now shifted from throughput to provable safety, with L1 zkEVMs required to meet a 128-bit security standard to prevent risks like token forgery or state corruption. EF released a three-phase roadmap aiming for full compliance by December 2026: 1. By end-February 2026, all zkEVM teams must integrate with EF’s soundcalc security tool. 2. By end-May, achieve intermediate goals like 100-bit provable security. 3. By end-December, reach 128-bit provable security with formal verification of recursive proof systems. Key technologies like WHIR and JaggedPCS are being deployed to improve efficiency. Challenges remain, including on-chain implementation, dynamic security parameter adjustments, and uneven progress among teams. Once achieved, secure zkEVMs could allow Ethereum to increase gas limits safely, enhance L1 capacity, and blur the lines between L1 and L2 execution. The race for reliability is now the central theme for Ethereum in 2026.

marsbit12/22 09:17

Ethereum Completes Another Key Technical Advancement, Can It Achieve a Leap Forward by 2026?

marsbit12/22 09:17

Interop Roadmap Accelerates: After Fusaka Upgrade, Ethereum Interoperability May Take a Key Leap

Recent Ethereum Fusaka upgrade, while primarily focused on Blob capacity expansion, introduced the underappreciated EIP-7825, a critical enabler for Ethereum's zero-knowledge (ZK) and interoperability roadmap. This proposal sets a hard per-transaction gas limit (~16.78 million gas), preventing "mega-transactions" from monopolizing a block. This change transforms block proof generation from a sequential logic problem into a parallelizable computational task, making real-time ZK proofs an engineering feasibility rather than a theoretical impossibility. This foundational shift is pivotal for the L1 zkEVM vision, where Ethereum itself generates verifiable proofs for its state transitions. L1 zkEVM acts as a universal "trust anchor," allowing Layer 2s (L2s) to instantly and trustlessly verify the mainnet's state without waiting for challenge periods. This eliminates the speed-trust decentralization trade-off, enabling near-instant, decentralized cross-chain interoperability. Concurrently, ZK technology is evolving from EVM-compatible zkEVMs to more efficient, ZK-optimized zkVMs. EIP-7825's parallelizable environment allows these zkVMs to operate at peak efficiency, drastically reducing proof generation cost and time. The convergence of EIP-7825, L1 zkEVM, and advanced zkVMs paves the way for the final stage of interoperability (Interop)—abstracting away chain boundaries to deliver a single-chain user experience where cross-chain actions are seamless, secure, and instantaneous.

marsbit12/11 22:52

Interop Roadmap Accelerates: After Fusaka Upgrade, Ethereum Interoperability May Take a Key Leap

marsbit12/11 22:52

Interop Roadmap "Acceleration": After Fusaka Upgrade, Ethereum Interoperability May Take a Key Leap

The Ethereum Fusaka upgrade, while primarily noted for expanding blob capacity and reducing L2 data costs, introduced the underappreciated EIP-7825—a critical enabler for Ethereum’s ZK and interoperability roadmap. EIP-7825 imposes a per-transaction gas limit (~16.78 million gas), preventing "mega-transactions" from blocking entire blocks. This change makes proof generation parallelizable, transforming it from a logic-bound challenge into a solvable computational problem. As a result, real-time ZK proofs become feasible, even for large blocks, paving the way for near-instant finality. This upgrade supports the development of L1 zkEVM, which can serve as a trust anchor for L2s, enabling secure, instant cross-chain communication without relying on optimistic challenge periods or centralized bridges. Furthermore, the shift from zkEVM to more efficient zkVM architectures is accelerated by EIP-7825, as zkVMs can leverage parallelization for faster, cheaper proof generation. Ultimately, these advancements are key to achieving seamless interoperability—not just for asset transfers, but for generalized cross-chain logic and communication—bringing Ethereum closer to a future where users experience a unified, chain-agnostic interface powered by real-time ZK verification.

深潮12/11 11:02