Inferix Decentralized GPU
  • Getting Started
    • Overview
    • $IFX
    • Resources
    • Brand Kit
    • Frequently asked questions (FAQs)
  • Inferix Whitepaper
    • Introduction
      • Rendering network using crowdsourced GPU
      • Rendering verification problem
    • High-level description of ANGV
      • Noise generation
      • Noise verification
      • Thread model
    • Implementation of ANGV
      • Structure of noise
      • Noise insertion
        • Geometric constraints
        • Distortion region
      • Adaptive noise spreading
      • Verification key generation
      • Noise verification
      • Threat analysis
        • Attacks on verification keys
        • Attacks on noises
        • Attacks on verifiers
      • Performance evaluation
      • Integration
    • 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
    • Economic model
      • GPU compute market for visual computing and federated AI
      • Inferix vision
      • $IFX token
      • Burn-Mint-Work token issuance model
      • Inferix bench and IBME
        • IB and IBM
        • IBME
      • Price simulation
      • Token metrics and allocation
        • Token allocation
        • Token vesting
      • Governance
      • Node staking and rewards
        • Worker
        • Verifier
        • Manager
        • Penalty pool
      • Node sale and guaranteed node buyback
        • Node sales
        • Guaranteed Node Buyback
    • Future development
      • PoR and NFT minting for graphics creative assets
      • ZKP and PoR communication
      • Inferix RemotePC
      • Rendering professional network
    • References
    • Appendix A: Proofs
    • Appendix B: Price simulation details
    • Appendix C: Hardware requirements for nodes
    • Appendix D: Performance evaluation data
  • Worker Node Guide
    • What is Worker Node
      • How do the Worker Node work
      • Worker Node Rewards
      • How to run Worker Node
      • What is the Worker Node License (NFT)
    • Worker Node Sales
      • Guide to Purchase Worker Nodes
      • Worker Node Sale Timeline
      • Node Supply, Price, Tiers and Purchase Caps
      • Guaranteed Node Buyback
      • How to get Node Whitelisted?
      • Smart Contract Addresses
      • User Discounts & Referral Program
      • Worker Node Purchase FAQ
      • ABKK Collaboration FAQ
  • Verifier Node Guide
    • What is Verifier Node
      • How do the Verifier Node work
      • Verifier Node Rewards
      • How to run Verifier Node
      • What is the Verifier Node License (NFT)
    • Verifier Node Sales
      • Guide to Purchase Verifier Nodes
      • Verifier Node Sale Timeline
      • Node Supply, Price, Tiers and Purchase Caps
      • Guaranteed Node Buyback
      • How to get Node Whitelisted?
      • Smart Contract Addresses
      • User Discounts & Referral Program
      • Verifier Node Purchase FAQ
      • Aethir Node Winners FAQ
  • Inferix MVP
    • Tutorial: MVP for designers & GPU owners
    • PoR MVP
  • Inferix Testnet 2 on Solana & IoTeX [ENDED]
    • Adding GPUs to the Network
      • For GPU providers
      • For GPU providers without funds
      • For users without GPUs
      • For Inferix Node Holders
    • Renting GPU Devices
    • User Revenue Calculation
      • Worker Rewards
      • Rental Revenue
      • Viewing Revenue
      • Claiming Rewards
    • GPU Staking & Unstaking
      • Staking Requirements
      • Unstaking GPUs
    • Guide to get tIFX tokens
    • Why choose Inferix DePIN GPU Solutions?
  • Inferix Testnet 1 on IoTeX [ENDED]
    • Inferix GPU Solutions
    • Adding GPUs to the Network
    • Renting GPU Devices
    • User Revenue Calculation
    • GPU Staking
    • Multiple options to participate in the Staking & Mining Program
    • Special airdrop for Inferix Node Holders! 🎉
    • Guide to get tIFX tokens
    • FAQ
  • Inferix Explorer
  • Team & Achievements
    • Our Story
    • Team
    • Member of Cohort 1 DePINSurf
    • Achievements
  • Community & Events
    • Events
    • Inferix Campaign: "ALLIANCE" (ENDED)
  • Terms of Service
    • Privacy Policy
    • Airdrop Terms of Service
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  • View Earnings
  • Worker Rewards
  • Reward Calculation
  • Rental Revenue
  • Claiming Rewards
  1. Inferix Testnet 1 on IoTeX [ENDED]

User Revenue Calculation

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Last updated 3 months ago

View Earnings

As a GPU Compute Provider on the Inferixplatform, effectively managing your ATH computation rewards is crucial for maximizing income and ensuring financial transparency. The platform's Wallet page offers comprehensive tools to help you easily track, claim, and manage your financial activities. Providers can view their daily earnings on the Wallet page, including: • Worker Rewards: Earnings from computational tasks. • Rental Revenue: Income from renting out GPU servers.

Worker Rewards

Worker rewards are composed of two parts: PoC rewards and PoD rewards. PoC: Proof of Capacity Proof of Capacity (PoC) is a blockchain consensus algorithm that allows mining devices in the network to utilize their available computational power to determine mining rights and validate transactions. PoC rewards are designed to encourage participants to keep their computational resources (containers) online and available, even when not actively processing tasks. This ensures a consistent and reliable resource pool for the network. Any container that remains online and meets the network's uptime requirements is eligible for PoC rewards. PoD: Proof of Delivery Proof of Delivery (PoD) verifies that mining devices in the network are genuine and have been successfully rented by third parties, earning additional rewards. PoD rewards incentivize participants to actively contribute computational power for rendering tasks and deliver highquality results. These rewards are granted to participants who successfully complete rendering tasks

Reward Calculation

Single GPU Revenue Formula:

Rental Revenue

Rental Revenue refers to the rent paid by tenants, with 95% of the daily rental income distributed to the GPU provider. A 5% protocol fee is deducted as a platform fee to cover operational costs and support further development. Daily earnings are distributed at 1:00 AM UTC. The release rules are as follows: • Worker Rewards: ◦ 25% of the total revenue is released immediately. ◦ The remaining 75% is linearly released over 180 days. • Rental Revenue: ◦ Fully liquid and available for withdrawal on the same day.

Claiming Rewards

• Worker Rewards: Claimable rewards from Worker revenue can be claimed. Once approved by the backend, they can be withdrawn to the user’s wallet. • Rental Revenue: Rental revenue can also be directly claimed. After backend approval, it can be withdrawn to the user’s wallet. Currently, the test network does not support claiming rewards.

The total reward pool is determined based on the overall network utilization and activity. Individual rewards are calculated proportionally, considering factors such as the container's (reflecting performance and capabilities) and its uptime.

In Testnet1, the value of Inferix Bench of each GPU model is pre-defined in GPU Specification, Hashrate and Staking amounts table in the section. Single GPU Weight Formula

SingleGPUweight=InferixBench×(Uptime+WPoD⋅LeaseTime)Single GPUweight = InferixBench × (Uptime + WPoD ⋅ Lease Time)SingleGPUweight=InferixBench×(Uptime+WPoD⋅LeaseTime)
Inferix Bench
GPU Staking