Inferix Decentralized GPU
  • Overview
  • Tokenomics
  • Introduction
    • Rendering network using crowdsourced GPU
    • Rendering verification problem
  • Decentralized visual computing
    • Client Apps plugin
    • Client API and SDK
    • Manager node
    • Worker node
    • Decentralized storage
      • Data categories
      • Multi-level 3D polygon data
      • Polygon digester
      • Decentralized storage
      • Decentralized cache
    • Data security with FHE and TEE
      • Verifier data security enhancement with FHE
      • Worker and Manager data security enhancement with FHE
    • Decentralized federated AI
      • Federated learning with TensorOpera
      • Meta LLaMA
      • Stable Diffusion
      • Other AI models
      • Inferix AI
  • Inferix Testnet 1
    • Inferix GPU Solutions
    • Adding GPUs to the Network
    • Renting GPU Devices
    • GPU Staking
  • Future development
    • PoR and NFT minting for graphics creative assets
    • ZKP and PoR communication
    • Inferix RemotePC
    • Rendering professional network
  • Terms of Service
    • Privacy Policy
    • Airdrop Terms of Service
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  1. Decentralized visual computing
  2. Decentralized storage

Decentralized cache

Inferix's 3D data caching system utilizes decentralized CDNs. This approach enhances the distribution and retrieval of data across the network, reducing latency and improving access speeds by caching frequently requested 3D assets closer to the end-users. The decentralized nature of the CDN ensures that caching is distributed across multiple nodes, providing redundancy and resilience while minimizing the load on any single server. This setup aligns with Inferix's broader strategy of leveraging decentralized technologies for efficient data management.

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Last updated 4 months ago