Naai DePIN Supercomputing Public Chain
Global Supercomputing Network and Open Ecosystem
Naai DePIN is building a High-Performance Computing Space (HPCS) network that integrates distributed compute clusters with AI engines, breaking through the scalability limitations of traditional centralized supercomputing centers. Its distributed architecture enables more flexible and efficient compute expansion, reducing costs while enhancing commercial value. This ecosystem adopts an open framework, code-named “Tinder,” inviting global participants to join the compute network and collaboratively advance the development of the supercomputing ecosystem.
Naai DePIN envisions creating a decentralized ecosystem in which users around the world can participate in the core supply chain of AIGC and enjoy stable, high-yield returns from compute leasing. By leveraging compute clusters and AI engines, the platform offers exponential scaling to the current compute market, significantly reducing computing costs while increasing utility.
Fragmented idle computing resources are treated as digital assets and are integrated into commercial applications through the Naai-HPCS protocol, enabling value circulation across industries.
One of the core innovations of NAAI smart devices is the built-in Naai DePIN supercomputing blockchain technology. This integration not only provides users with an easy entry into the Web3 ecosystem, but also empowers devices to participate in intelligent computing and compute sharing, creating sustainable earning opportunities.
Decentralized Physical Infrastructure Network (DePIN)
DePIN represents a new blockchain infrastructure model that connects physical devices (e.g., smartphones, computers, servers) with decentralized networks. Users contribute computing resources in exchange for participating in decentralized service ecosystems. Within the Naai DePIN supercomputing blockchain, NAAI smart devices act as DePIN nodes, offering edge computing services and earning corresponding rewards for executing intelligent tasks.
Edge Computing: NAAI devices form part of the intelligent computing blockchain network, shifting data processing from centralized servers to end devices, enhancing response times and computation efficiency.
Compute Sharing: Users can opt to share idle computing resources with the blockchain network, helping to power decentralized applications (DApps) and AI workloads with more efficient, distributed computing power.
Supercomputing Blockchain and Smart Contract Integration
Smart contracts are a foundational component of the Naai DePIN blockchain. They automate participation in compute sharing and reward distribution.
Automated Rewards: Whenever a device provides compute power, smart contracts calculate contributions and distribute rewards in real-time without manual intervention, ensuring both efficiency and transparency.
Flexible Incentives: Rewards can be distributed as native tokens, digital assets, or other incentives, depending on the contract terms.
Cross-Chain Interoperability
As part of the Web3 stack, Naai DePIN supports cross-chain interactions. Users participating in compute sharing can engage with multiple blockchain ecosystems, extending compute services beyond a single chain.
Multi-Chain Compatibility: Naai DePIN supports consensus mechanisms from various public blockchains (e.g., Ethereum, Polkadot, Solana), allowing users to interact across chains and ensure efficient compute utilization.
Cross-Chain Data Flow: Smart contracts can execute tasks across blockchains, enabling interoperability of compute and digital assets between ecosystems. This fosters greater resource coordination and operational synergy, enhancing the flexibility and scalability of the compute network.
Decentralized Compute Marketplace
Naai DePIN features a decentralized compute marketplace where users exchange computing resources for tokens or other rewards. Devices become network nodes, earning income by offering compute power.
Peer-to-Peer Transactions: The marketplace eliminates intermediaries, enabling direct interaction between users and nodes, reducing costs and improving efficiency.
Inclusive Participation: Devices of all sizes can contribute, ensuring decentralization and preventing compute monopolization.
Smart Contract Incentives and Governance
Beyond compute sharing, Naai DePIN supports decentralized governance, empowering users to shape network development and protocol upgrades.
Governance Tokens: Contributors receive governance tokens, which grant rights to vote on upgrades, protocol changes, and ecosystem decisions—ensuring user-driven growth.
Community Consensus: Through DAOs and smart contracts, users jointly govern the chain, ensuring long-term sustainability and alignment with community needs.
AI Compute and Web3 Synergy
Naai DePIN doesn’t stop at blockchain applications. It also supports AI workloads, enabling users to share compute power for AI model training, deep learning, and intelligent tasks.
AI Workloads: Users can allocate device resources to support AI inference, model training, and other computationally intensive operations.
Multi-Scenario Applications: AI compute supports smart contracts, analytics, image recognition, and more—bridging Web3 with real-world applications.
Thanks to the built-in Naai DePIN blockchain, NAAI smart devices allow users to seamlessly participate in the DePIN ecosystem. Through smart contracts and cross-chain support, they earn incentives by contributing computing resources. This innovative infrastructure empowers a new model of participation while accelerating the convergence of blockchain and AI for a smarter, more intuitive digital experience.
Naai Network Architecture
Naai DePIN employs a multi-layer, deeply integrated architecture to deliver a seamless, secure, and efficient user experience. Each layer is responsible for a specific function and collaborates with others to optimize system performance. Built on modern technology standards, the architecture ensures scalability, reliability, and long-term robustness.
User Interface
This layer serves as the visual entry point for users. It includes the public website, client area, and GPU provider section (Workers). Designed to be intuitive and user-centric, it ensures ease of navigation and interaction.
Technology Stack:ReactJS、Tailwind、web3.js、zustand。
Security Layer
A critical layer that ensures system integrity and security. It includes firewalls for network protection, authentication services for user verification, and logging services for activity tracking.
Technology Stack:Firewall(pfSense、iptables)、Authentication(OAuth、JWT)、Logging Service(ELK Stack、Graylog)。
API Layer
Serving as a communication bridge, this layer encompasses multiple components: public APIs for the website, private APIs for workers/GPU providers and clients, as well as internal APIs for cluster management, analytics, and monitoring/reporting.
Technology Stack:FastAPI、Python、GraphQL、RESTful Service、gunicorn、solana。
Backend Layer
The powerful engine of the system. It manages providers (Workers), cluster/GPU operations, client interactions, fault monitoring, analytics, billing/usage tracking, and auto-scaling.
Technology Stack:FastAPI、Python、Node.js、Flask、solana、IO-SDK(A fork of Ray 2.3.0)、Pandas。
Database Layer
The data repository of the system. It uses primary storage for structured data and caching to store temporary, frequently accessed data.
Technology Stack:Postgres(Primary Storage)、Redis(Cache)。
Message Broker / Task Layer
This layer coordinates asynchronous communication and task management, ensuring smooth data flow and efficient task execution.
Technology Stack:RabbitMQ(Message Broker)、Celery(Task Management)。
Infrastructure Layer
It includes the GPU pool and hardware from our certified partners. Orchestration tools are responsible for managing deployments, while execution/machine learning tasks handle compute and ML operations. Additionally, it provides data storage solutions. GPU performance is monitored using Nvidia-smi or NVIDIA DCGM.
Technology Stack:
GPU/CPU Pool
Orchestration:Kubernetes、Prefect、Apache Airflow
Execution / Machine Learning Tasks:Ray、Ludwig、Pytorch、Keras、TensorFlow、Pandas
Data Storage:Amazon S3、Hadoop HDFS
Containerization:Docker
Monitoring:Grafana、Datadog、Prometheus、NVIDIA DCGM
These layers, supported by the above technology stack, collectively form the robust and scalable architecture of Naai DePIN, ensuring it meets the demands of modern users.
Last updated