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AI Connect Whitepaper
  • Project Introduction
  • 1. Project Background and Vision
  • 2. Introduction to Computing Power Networks
    • 2.1 Data as a New Factor of Production, Giving Rise to Computing Power Networks
    • 2.2 The Current Distribution of Computing Power Supply and Demand Shows Decentralized and Unbalanced
    • 2.3 The Metaverse Era, Where New Technologies Like VR and AR Are Closely Related to High Bandwidth a
    • 2.4 Computing Power Networks Refer to the Integration of Cloud, Network, and Edge for Unified Comput
    • 2.5 Computing Power Networks Build the Network Foundation for the Development of the Metaverse
  • 3. Market Demand for the Development of Computing Power Networks
    • 3.1 The AI Wave Boosts Computing Power Demand, and Achieving Scalability of Intelligent Technology R
    • 3.2 Industry Applications of Large Model Training Also Require a Large Amount of Intelligent Computi
    • 3.3 The AI Application Has a Long Tail Effect, and Achieving Scalability Requires First Achieving Un
  • 4. AIConnect Computing Power Network Construction Plan
    • 4.1 Computing Power Supply Services
    • 4.2 The Infrastructure and Marketization of Computing Power Scheduling
    • 4.3 The Commercial Demand for Computing Power Scheduling
  • 5. Global Development of Computing Power Networks and DePIN
    • 5.1 Development Advantages of DePIN Combined with AI and Crypto
    • 5.2 AIConnect's Investment in AI Edge Computing Model Training and Development
  • 6. Joint Construction and Participation in AIConnect's Computing Power Network
    • 6.1 Introduction to the Role of AIC Token Assets in AIConnect
    • 6.2 Design Advantages of AIC Tokens
    • 6.3 Introduction to the Business Model of AIC Tokens
      • 6.3.1 AIC Token Production
      • 6.3.2 Node Participation
  • 7. Development Roadmap
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5. Global Development of Computing Power Networks and DePIN

Networks composed of edge intelligent devices, as a new type of distributed computing architecture, are a typical example of DePIN. These networks are highly decentralized, with computing and storage resources下沉 to the network edge rather than being concentrated at cloud center nodes, aligning with DePIN's decentralized philosophy. Edge intelligent device networks require large-scale collaboration and an open coordination platform for resource optimization, which highly matches DePIN's positioning and functionality. Edge intelligent device networks can serve a wide range of industries, including industrial, medical, and energy sectors, all of which are key service industries for DePIN. From a technical perspective, edge networks have a strong demand for large-scale, low-cost computing and storage resources, which is exactly what DePIN provides as decentralized infrastructure services. Finally, from a business model perspective, participants in edge intelligent device networks can earn rewards by providing resources, which is in line with DePIN's blockchain incentive model. Edge intelligent networks have a high degree of consistency and fit with DePIN, making them an important practical case under the DePIN framework and a key component of DePIN's decentralized physical infrastructure.

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Last updated 1 year ago