Blockchain

Orochi Network is a Web3 data network specializing in Verifiable Data Infrastructure (VDI), with the core objective of building a trusted data interaction framework between blockchain and off-chain environments. By leveraging Zero-Knowledge Proofs (ZKP), zkDatabase, Verifiable Data Pipeline, Fully Homomorphic Encryption (FHE), and Trusted Execution Environment (TEE), Orochi aims to make every stage of data—from creation, storage, and computation to final output—verifiable. This enables users to independently validate data authenticity and computational accuracy without relying on the credibility of centralized entities.

GMX enables on-chain spot and Perpetual Futures trading without an order book by combining oracle pricing with a liquidity pool mechanism. Unlike traditional decentralized exchanges that rely on automated market makers (AMMs) or order books, GMX references external market prices for trading and uses a unified liquidity pool as the counterparty, thereby reducing slippage and price manipulation risks.

TRADOOR is the native token of the Tradoor protocol ecosystem, designed to support protocol operations, ecosystem coordination, and user participation mechanisms. Rather than functioning as a trading asset, TRADOOR's core purpose is to serve as the foundational tool linking protocol operations, ecosystem incentives, and long-term coordination mechanisms.

Mitosis is a modular liquidity protocol designed for multi-chain blockchain ecosystems. It leverages Programmable Liquidity and a Global Execution Layer to connect assets and applications distributed across disparate networks. The protocol aims to address the persistent issue of liquidity fragmentation in DeFi, empowering developers and users to execute cross-chain interactions and manage assets on a unified liquidity layer.

Programmable Liquidity is an infrastructure paradigm that decouples liquidity from any single protocol or blockchain, allowing it to be programmatically scheduled, allocated, and combined. Unlike traditional liquidity confined to fixed pools, programmable liquidity can operate across multiple networks and use cases, enabling unified management and Publicación invocation. Mitosis makes programmable liquidity its core design philosophy, building a unified liquidity network with Vault Network, miAssets, and a cross-chain execution layer.

Mitosis is a programmable liquidity protocol designed for multi-chain ecosystems. Its workflow centers on asset deposit, liquidity mapping, cross-chain coordination, and application execution. Once users deposit assets into the Vault Network, the system generates corresponding miAssets, and the cross-chain execution layer coordinates liquidity resources across different blockchains, allowing applications to directly access the unified liquidity network.

Glamsterdam is a critical upgrade phase in the Ethereum roadmap, with one of its core goals being to transition Ethereum from traditional sequential execution toward parallel execution. To accomplish this, Ethereum is advancing Block Access Lists (BAL), optimizing state access, and adjusting block execution architecture — all aimed at improving Layer 1 throughput and resource utilization while preserving decentralization and security.

Ethereum ePBS (Enshrined Proposer Builder Separation) is one of the most closely watched protocol-level mechanisms in the Ethereum Glamsterdam upgrade. Its core objective is to embed block construction directly into the protocol layer while preserving network decentralization and security—thereby optimizing the MEV (Maximal Extractable Value) market structure, reducing dependence on third-party relays, and enhancing transparency and fairness in the block production process.

Ethereum Glamsterdam represents the next-generation protocol upgrade within the Ethereum roadmap. Its core objectives are to improve Layer 1 Operar throughput, optimize block construction mechanisms, and further enhance network scalability and user experience, all while preserving decentralization and security. Key components of this upgrade include Enshrined Proposer Builder Separation (ePBS), Block Access Lists (BAL), and parallel execution capabilities. This upgrade is regarded as a critical milestone in scaling the Ethereum main chain.

Checker is a startup specializing in stablecoin infrastructure, primarily helping financial institutions quickly integrate stablecoin payments, liquidity management, and compliance services through a single API. As the global stablecoin market continues to expand, Checker seeks to reduce the technical and regulatory hurdles enterprises face when adopting blockchain-based financial services.

Stablecoin payments are quickly being integrated into the daily operations of corporations and financial institutions. However, the true challenge often lies not in the stablecoins themselves, but in the intricate compliance, liquidity, and fund management workflows that support them.

The rapid growth of the stablecoin market relies not only on issuers but also on extensive payment, compliance, and liquidity infrastructure. This article examines Checker's role in the stablecoin ecosystem and explains why enterprise-grade financial infrastructure is emerging as the core battleground for industry competition.

GEODNET (GEOD) is a global high-precision positioning network built on a Decentralized Physical Infrastructure Network (DePIN). By incentivizing users to deploy GNSS reference stations, it delivers centimeter-level Real-Time Kinematic (RTK) services for drones, robots, autonomous driving systems, and surveying equipment. Unlike traditional centralized positioning services, GEODNET leverages blockchain and token incentives to expand global positioning infrastructure, enabling high-precision coverage of a wider area at a lower cost.

AVV is the native asset of the AIVIVE protocol. Its primary role is not to serve as a payment medium but to act as a value anchor within the protocol’s economic cycle. The project does not require users to hold AVV to use its products, nor does it generate demand through staking or governance mechanisms. Instead, it directly ties protocol revenue to changes in token supply.

The AI Agent within AIVIVE is an intelligent agent system equipped with goal comprehension, sustained execution, and automated feedback capabilities. Rather than simply responding to queries, it continuously performs analysis, decision-making, and execution aligned with task objectives.