OCEAN AI Technical Architecture

Through a highly modular technical architecture and deep integration with Ethereum Chain, OCEAN AI has established an efficient, secure, and decentralized distributed computing network. By combining innovative applications in Decen- tralized Physical Infrastructure (DePin) and Decentralized Science (DeSci), OCEAN AI optimizes resource sharing and utilization, enhances task execution efficiency, and strengthens data security. Leveraging smart contracts, blockchain technology, and AI-driven task scheduling, OCEAN AI offers a fair, transparent, and low-cost solution for global com- putational demands, driving the development of a decentralized computing ecosystem worldwide.

1. Overview of OCEAN AI’s Technical Architecture

OCEAN AI adopts a modular architecture to deliver an efficient, transparent, and secure platform for sharing computa-

tional resources. The core architecture integrates blockchain technology with smart contracts, decentralized storage, and AI-based task scheduling to maximize resource utilization while safeguarding participant interests and data priva- cy.

Key Modules in OCEAN AI’s Architecture:Decentralized Computing Resource Pool:This foundational module aggregates computing resources provided by participants, including personal computers, GPU clusters, and cloud servers, into a global distributed resource pool. Resource management and task scheduling are automated through smart contracts, ensuring fair and efficient alloca- tion.

Smart Contract Layer:OCEAN AI employs blockchain-based smart contracts to automate the allocation and payment of computing resources. This layer ensures transparency, fairness, and decentralized management within the network. Participants are rewarded with tokens based on the computational power they contribute.

Task Scheduling and Optimization Layer:Powered by AI and machine learning, this intelligent scheduling system dynamically optimizes task allocation based on computational demands and node status. It ensures tasks are completed quickly and efficiently while monitoring task execution progress and adjusting resource distribution in real-time.

Decentralized storage layer: In order to ensure data security and traceability during the computing process, OCEAN AI combines decentralized storage technologies (such as IPFS) to store relevant data of computing tasks. All calculation processes and results can be recorded through blockchain to ensure the transparency and non-tampera- bility of the data.

Security and privacy protection layer: OCEAN AI ensures the security of data and computing processes through block- chain technology. During the calculation process, multiple privacy protection technologies are adopted, such as zero-knowledge proof and homomorphic encryption, to ensure that user data will not be leaked. In addition, all trans- actions and calculation records are open and transparent on the blockchain, and any data tampering will be discovered immediately.

2. Combination of OCEAN AI and Ethereum Chain

Ethereum Chain is a high-performance, low-latency blockchain platform designed for decentralized finance (DeFi) applications, distributed computing, and smart contract services. OCEAN AI chose to build its ecosystem on Ethereum Chain, taking full advantage of its high throughput, low transaction costs, and highscalability to create a global distrib- uted computing network.

Core advantages and integration methods

High throughput and low latency: Ethereum Chain uses an efficient consensus algorithm, which makes the execution speed of transactions and smart contracts far exceed that of traditional blockchain platforms. OCEAN AI can quickly perform payment settlement and task scheduling of computing resources on this chain, thereby achieving real-time task execution and settlement on a global scale. Low transaction costs: Compared with mainstream block- chains such as Ethereum, Ethereum Chain has extremely low transaction fees and is suitable for large-scale, high-fre- quency computing resource transactions. OCEAN AI is able to leverage this to ensure that the sharing of distributed computing resources and payment systems are widely used around the world without having to worry about high transaction costs. Decentralized smart contracts and governance: OCEAN AI uses Ethereum Chain smart contract technology to achieve decentralized computing resource scheduling and reward distribution. All computing tasks, resource transactions, and reward distribution will be automatically executed through smart contracts to ensure fairness, justice, and transparency. In addition, smart contracts can dynamically adjust the reward mechanism based on the contributions of participants, encouraging more users to participate in the sharing of computing resources.

Cross-chain compatibility and ecological expansion: Ethereum Chain cross-chain compatibility allows OCEAN AI to easily communicate with other blockchain platforms and expand its ecosystem. This means that OCEAN AI is not only limited to operating within Ethereum Chain, but can also seamlessly connect with other ecosystems such as DeFi and NFT to provide a wider range of application scenarios.

Tokenization and token economic model: OCEAN AI issues OCEAN AITOKEN (OCAT) through smart contracts as the basic asset of the entire network. OCAT tokens are used to pay for computing tasks, reward computing power provid- ers, incentivize platform participants, and for governance voting. With the efficient support of Ethereum Chain, OCAT transactions can achieve low-latency, low-cost transfers and payments, providing users with a smooth experience.

3. Specific implementation methods of technical architecture

Node and task allocation: All computing resource providers (nodes) are connected to the OCEAN AI platform through smart contracts. A node can be any device with computing capabilities (such as a personal PC, server, GPU, edge computing device, etc.), and each node participates in the task pool by registering a contract. The platform intelli- gently allocates tasks based on the node’s computing power, current load, and network latency. The results and data of computing tasks are recorded through blockchain to ensure the transparency and credibility of the tasks.

Reward and payment mechanism: On Ethereum Chain, OCEAN AI implements payment and reward settlement for task execution through smart contracts. Each node receives corresponding OCAT tokens as rewards based on the computing power it provides and the amount of computing tasks it completes. The entire payment and reward process is automatically executed by blockchain smart contracts to ensure the fairness and transparency of transactions.

Data storage and privacy protection: All computing task data, task execution process and results involved are managed through decentralized storage technology (such as IPFS). Data encryption and privacy protection tech- nologies (such as zero-knowledge proof and homomorphic encryption) ensure the security of user data, and any privacy leaks during the computing process will be effectively prevented.

Decentralized governance: OCEAN AI ensures the decentralized nature of the platform through the SMART Chain governance mechanism. OCAT token holders can participate in the platform's governance decisions, propose, vote and modify the platform's relevant protocols and rules. This mechanism ensures the openness of the platform and the participation of the community.