Blockchain

The HPP token is the core utility asset of the House Party Protocol network. It is mainly used for transaction fees, AI service access, node incentives, governance participation, and network security maintenance.

House Party Protocol (HPP) is a blockchain based AI protocol. Its core purpose is to enable trusted execution and verification of AI inference results through a verifiable computation mechanism.

Aptos is a Layer 1 proof of stake, PoS, blockchain built on the Move programming language. It is designed to achieve extremely high transaction throughput, security, and upgradeability through a parallel execution engine and modular design. As a technical continuation of Meta’s, formerly Facebook’s, Diem project, Aptos introduced the Block-STM mechanism, allowing the network to process large scale concurrent transactions without sacrificing decentralization. Today, Aptos is widely used across decentralized finance, DeFi, social applications, NFT ecosystems, and various forms of high performance Web3 infrastructure.

Move is a secure smart contract language designed specifically for digital asset management. It was originally developed by Meta’s Diem team. Through its core concept of the Resource, Move ensures that on chain assets are unique, cannot be copied, and cannot be discarded arbitrarily. This prevents common security vulnerabilities such as reentrancy attacks and unlimited minting at the architectural level. By introducing linear logic and the built in Move Prover verification tool, the Move programming language provides financial grade security for high performance public chains such as Aptos and Sui.

Aptos and Sui are leading Layer 1 public blockchains developed using the Move programming language. While both projects trace their origins to Meta’s Diem initiative, they differ fundamentally in their underlying architectures. Aptos utilizes a traditional account-based model and leverages the Block-STM engine for optimistic parallel execution. In contrast, Sui introduces an innovative object-centric data model, enabling confirmation of non-shared objects without requiring consensus. Their primary distinctions are reflected in trade processing logic, the level of Move language customization, and storage resource management strategies—together advancing blockchain technology toward Internet-scale scalability.

Aptos is a Layer 1 public blockchain developed by core members of Meta’s former Diem project, inheriting three years of technical work from Diem as well as the Move programming language. Its evolution centers on solving blockchain’s scalability challenge through Block-STM parallel execution, the separation of ledger history and state, and an innovative on chain configuration upgrade mechanism that enables smooth scaling without hard forks. From Diem’s permissioned chain concept to Aptos’ decentralized public blockchain, this journey marks a major leap in blockchain infrastructure from monolithic architecture to a high performance, highly upgradeable modular design.

As the Ethereum Layer 2 ecosystem expands rapidly, liquidity fragmentation and the complexity of cross-chain operations have become new challenges. The Ethereum Economic Zone (EEZ) is a technical framework designed to address these specific issues. In this article, you'll learn how EEZ works, its core technologies, and how it drives the vision of One Ethereum.

Storj is a decentralized cloud infrastructure platform that utilizes a distributed network of nodes to store data, providing S3-compatible object storage and related data access and hashrate solutions. The ecosystem token, STORJ, primarily facilitates incentives, payments, and value coordination, serving as a link between on-chain and off-chain commercial systems. Unlike the traditional approach of hosting data solely in a single cloud provider’s data center, Storj employs encryption, sharding, and redundancy to distribute objects across a global array of contributor nodes—offering an alternative engineering solution for cost structure, scalability, and mitigating vendor lock-in risks. Official materials also highlight its enterprise-oriented compliance and governance positioning, featuring deliverable operational and product portfolios focused on security and audit objectives.

Storj is a decentralized cloud storage platform built on a distributed node network, providing S3-compatible object storage, data sharding encryption, and erasure code redundancy. By integrating acquisition and product upgrade updates from 2025–2026, this report systematically analyzes its network architecture, performance and security characteristics, management mechanisms, and future optimization strategies.

The STORJ token, an ERC-20 standard token on the Storj network, serves as a core accounting unit for the economic cycle of distributed cloud infrastructure. On one side, it connects customers and partners seeking object storage; on the other, it links global node operators who provide capacity and bandwidth. Storj's products are largely delivered through S3-compatible APIs, allowing for a seamless "cloud-like" user experience while supporting a distributed supply coordinated by tokens. Thus, to truly understand STORJ, the focus shouldn't be on idealizing every read and write operation as on-chain consensus, but rather on recognizing how the system embeds verifiable incentives within a scalable off-chain service architecture.

This article provides an objective comparison of FilecoinOnchain Cloud, Arweave, Walrus, 0G, and AIOZ, focusing on their differences in verifiable storage, permanent data, and S3 compatibility. It also includes a reminder about the risks of adoption and tokens. This content does not constitute investment advice.

The Sonic technology stack is an integrated technical solution designed to comprehensively optimize Layer 1 blockchain performance. By combining the Carmen storage engine, an optimized EVM execution layer, and the Lachesis consensus protocol, Sonic successfully increases transaction processing capacity to more than 10,000 TPS while reducing confirmation latency to the sub second level. The core of this technology stack lies in solving blockchain’s long standing problems of “state bloat” and execution bottlenecks. Through flat data structures and parallel validation logic, it provides scalable infrastructure for large scale decentralized applications.

Sonic is a high performance Layer 1 blockchain protocol designed to deliver extremely high transaction throughput and instant finality. As decentralized applications increasingly demand real time interaction, Sonic achieves processing capacity of more than 10,000 TPS and confirmation speeds of around 0.8 seconds through its core Sonic technology stack, which includes the Carmen database and an optimized EVM execution layer. As a major technological leap for the Fantom ecosystem, it is fully compatible with the Ethereum development environment and addresses the scalability and storage efficiency bottlenecks that have long limited traditional blockchains through a rebuilt underlying architecture.

Sonic and Fantom are both high performance Layer 1 blockchains developed by the same team, but they differ significantly in underlying architecture and processing capability. Although the two networks share continuity at the ecosystem level, their core mechanisms are fundamentally different. Fantom is built on an earlier implementation of the Lachesis consensus and achieves about 200 TPS, while Sonic introduces the Carmen storage engine, an optimized Lachesis consensus, and the Sonic VM to deliver throughput of more than 10,000 TPS with sub second finality. In simple terms, Sonic represents a complete technical rebuild of Fantom and a major leap in performance.

Fluent is a Layer 2 network developed on Ethereum, utilizing a Blended Execution architecture to allow applications from various virtual machines to run seamlessly on a single on-chain network.