Key Features

WorldLand combines blockchain technology with distributed GPU infrastructure to create a generic GPU compute marketplace.

Instant GPU Access

WorldLand Cloud provides on-demand GPU containers designed for AI researchers and developers:

• Full SSH access as root user
• Pre-installed CUDA and NVIDIA drivers
• Flexible resources — Choose GPU model, CPU, memory, and storage
• Public connectivity — Access your container from anywhere
• Pay-as-you-go — Hourly billing with no long-term commitments

Users can start training AI models or running inference nodes within minutes at a fraction of the cost of centralized clouds.

Dual-Mode GPU Operation

GPU providers in WorldLand maximize utilization and earnings by operating in two distinct modes:

Service Mode (On-Demand)

• Primary Function: Renting out GPU computing power to customers.
• Role: AI Training, Inference, Rendering, etc.
• Earnings: High-yield service fees paid by users.

Mining Mode (Idle)

• Fallback Function: Participating in network consensus when no rental jobs are assigned.
• Role: Securing the blockchain network.
• Earnings: Block rewards in WL.

This dual-mode design ensures zero-idle efficiency—GPU resources are always generating value.

Web3-Native & Permissionless

As a DePIN (Decentralized Physical Infrastructure Network), WorldLand removes barriers to entry:

• Wallet-based Login — No complex sign-up, just sign with your wallet.
• Global Access — Register a GPU or rent one from anywhere in the world.
• Transparent Pricing — A decentralized market where supply and demand determine rates.
• Diverse Support — From individual gaming rigs to enterprise data centers, all can participate.

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Technical Roadmap: Verifiable Compute

Under Research & Development

The following features are part of WorldLand's long-term technical vision to bring trustless verification to off-chain computation.

Proof-of-Compute (Verification Layer)

WorldLand is developing a cryptographic verification layer to ensure that off-chain GPU work is executed honestly without requiring trust in the provider. The proposed commit-challenge-response protocol aims to:

• Randomly audit execution results.
• Penalize dishonest providers via slashing.
• Create a "Trustless" compute market.

ECCVCC Consensus

To support this verification, WorldLand proposes ECCVCC (Error Correction Code Verifiable Computation Consensus), a novel Proof-of-Work mechanism designed to integrate useful compute work into blockchain consensus.

Note: These verification technologies are currently under active research and will be rolled out in future phases.