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PROLOGUE

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Table of Contents

CHAPTER 01

Abstract

MetaCore is a next-generation modular public blockchain purpose-built for the convergence of artificial intelligence, digital identity, and virtual worlds. As AI-driven applications become central to digital economies, there is a growing demand for verifiable computation, interoperable identities, and transparent ownership frameworks.

AI Integration

AI agents operate seamlessly on-chain with trusted compute validation

Digital Identity

Decentralized identity (DID) for interoperable identities across worlds

Virtual Worlds

Cross-world interoperability with programmable ownership

Multi-Layer Modular Architecture

MetaCore provides a decentralized infrastructure that unites these elements into one cohesive ecosystem. It enables AI agents, creators, and virtual worlds to operate seamlessly on-chain through programmable ownership, trusted compute validation, and cross-world interoperability.

01 Settlement Layer
02 Scalability Layer
03 AI Compute Layer

Core Components

Decentralized Identity (DID)
NFT Licensing Standards
AI Compute Marketplace

The network is structured with a multi-layer modular architecture, integrating settlement, scalability, and AI computation layers to ensure high throughput, privacy, and composability. By embedding decentralized identity (DID), NFT licensing standards, and a verifiable AI compute marketplace, MetaCore forms the foundation for the intelligent metaverse economy.

In essence: MetaCore is not just a blockchain—it is the infrastructure powering the next era of digital civilization, where AI, creators, and virtual economies coexist transparently and autonomously.
CHAPTER 02

Introduction

The convergence of artificial intelligence (AI), blockchain technology, and immersive virtual worlds marks the dawn of a new digital civilization. In this emerging landscape, AI agents interact autonomously, creators generate intelligent content, and users traverse persistent virtual realities. However, this transformation exposes deep structural challenges that current infrastructures are unable to solve—challenges surrounding trust, interoperability, scalability, ownership, and verification.

The Infrastructure Challenge

Traditional public blockchains, despite their success in decentralized finance and asset tokenization, were not architected for the demands of intelligent systems or high-frequency virtual environments. Their monolithic designs, limited throughput, and costly execution models inhibit the growth of AI and metaverse economies.

Meanwhile, off-chain AI systems, though powerful, lack verifiable computation, decentralized coordination, and transparent economic incentives, resulting in fragmented ecosystems governed by centralized intermediaries.

These limitations have created a gap between the promise of intelligent virtual economies and the technology required to sustain them.

THE SOLUTION

MetaCore Chain is built precisely to close this gap.

MetaCore introduces a modular, AI-native public blockchain engineered to merge verifiable computation, decentralized identity, and programmable ownership into a single interoperable foundation. It acts as a universal coordination layer for AI-driven economies—linking compute providers, creators, and virtual world developers through a transparent and efficient settlement network.

Design Philosophy

01
Specialization

Architecture separates consensus, execution, data availability, and AI compute layers

02
Modularity

Ensures scalability without compromising decentralization

03
Interoperability

Multiple virtual environments coexist through MetaX protocol

WorldChains

Virtual worlds and metaverse platforms can deploy their own custom subchains, each inheriting MetaCore's security guarantees while maintaining independent parameters for gas, permissions, and logic. This structure transforms MetaCore into a multi-world infrastructure, where hundreds of virtual environments coexist yet remain interoperable.

ComputeHub

A verifiable compute marketplace that allows AI developers and node operators to provide computation for inference, training, and data processing. These jobs are validated through trusted execution environments (TEE) or zero-knowledge machine learning proofs (ZKML), enabling cryptographic verification of AI results.

Identity & Ownership Layer

Through MetaCore DID and extended NFT standards (MC-721L / MC-1155X), users and creators can register decentralized identities, issue verifiable credentials, and attach programmable licenses or royalty logic to their digital works. This system ensures that authorship, model ownership, and derivative rights are permanently and transparently enforced.

MetaCore enables:

Autonomous AI agents capable of verifiable reasoning and cross-world action

Persistent digital identities with privacy-preserving credentials

Interoperable assets and royalties flowing seamlessly across virtual worlds

A self-governing economy sustained by transparent incentives and community-driven governance

MetaCore is more than a blockchain—it is the computational and economic backbone for the next generation of intelligent, interconnected digital realities. It represents a paradigm shift from networks that simply record transactions to those that orchestrate intelligence, ownership, and collaboration at planetary scale.

CHAPTER 03

Vision and Mission

VISION

The Future We're Building

MetaCore envisions a world where intelligence, creativity, and ownership coexist seamlessly within a decentralized digital economy. In this new paradigm, humans and AI agents collaborate, transact, and create across interconnected virtual worlds governed not by centralized platforms, but by transparent protocols and community-driven governance.

The project's long-term vision is to establish the infrastructure layer for the intelligent metaverse — a network of interoperable virtual worlds powered by verifiable AI computation, decentralized identities, and self-executing digital rights. MetaCore aims to serve as the economic and computational foundation for this new era, ensuring that every digital creation, interaction, and computation can be verifiably owned, audited, and rewarded.

Guiding Principles

Interoperability over isolation

Bridging fragmented metaverse platforms and AI systems into a unified protocol layer.

Transparency over trust

Ensuring verifiable computation, provenance, and identity without reliance on centralized intermediaries.

Creativity with ownership

Enabling creators and AI agents to generate value while preserving rights and fair revenue distribution.

Sustainability through decentralization

Building an ecosystem governed collectively, designed for long-term resilience rather than short-term control.

The ultimate vision is to make MetaCore the nervous system of the decentralized digital civilization, where innovation and intelligence are composable, verifiable, and borderless.

MISSION

What We're Doing Today

MetaCore's mission is to empower the builders of the intelligent metaverse — from creators and developers to AI model providers and virtual world architects — by providing a secure, scalable, and composable blockchain infrastructure that unites compute, identity, and content into a single programmable framework.

Four Strategic Goals

01
Enable Verifiable AI Computation

Create a decentralized AI compute marketplace where inference, training, and data processing can be performed and verified using cryptographic proofs or trusted hardware attestations. Every AI operation should be both economically incentivized and mathematically verifiable.

02
Establish Interoperable Digital Identity

Build a universal DID and credential system that allows users, creators, and AI agents to maintain consistent, privacy-preserving identities across all worlds and applications. This ensures accountability without compromising individual sovereignty.

03
Redefine Digital Ownership

Introduce programmable asset standards (MC-721L and MC-1155X) to represent ownership, licensing, and royalties for digital and AI-generated works. By embedding these rules on-chain, MetaCore ensures that creativity and collaboration are rewarded transparently and automatically.

04
Build a Sustainable, Decentralized Ecosystem

Foster a global network of contributors—validators, developers, creators, and communities—who collectively govern the system through MetaDAO, ensuring fairness, resilience, and continuous innovation.

Through these pillars, MetaCore seeks to transform how digital value is created, validated, and shared. It redefines the relationship between humans, AI, and the virtual worlds they inhabit—shifting from platform-controlled economies to open, verifiable, and co-owned ecosystems.

MetaCore's mission is not merely to support the metaverse—it is to enable intelligence itself to become an open, shared, and verifiable public good.

CHAPTER 04

System Architecture

MetaCore is designed as a modular, AI-native blockchain architecture that provides the scalability, interoperability, and flexibility required to support the intelligent metaverse. Unlike monolithic blockchains that couple execution, consensus, and data storage into a single layer, MetaCore separates these functions into specialized components, enabling optimized performance, verifiable computation, and seamless cross-world communication.

Five Fundamental Layers

L1

Settlement and Consensus Layer

At the foundation of MetaCore lies the Settlement and Consensus Layer, responsible for network security, finality, and coordination among all subchains.

Consensus Mechanism

Delegated Proof of Stake (DPoS) combined with Byzantine Fault Tolerance (BFT), providing one-second block times and two-to-three second finality.

Execution Environments

Dual virtual machines — EVM for compatibility and WASM for high-performance applications.

Governance Integration

All key parameters governed by MetaDAO, ensuring decentralized control.

Economic Security

Staking of native MetaCore Token ensures validator accountability.

This layer serves as the trust anchor for all MetaCore components, ensuring the stability and immutability of the system's global state.
L2/L3

Application Layer (WorldChains)

The Application Layer represents the scalable execution environment of MetaCore, where independent subchains — known as WorldChains — operate as customizable Layer-2 or Layer-3 networks.

Customization

Each WorldChain can define its own gas models, permission settings, and runtime environments.

Use Cases

Optimized for open-world games, AI-driven simulations, digital twin environments, and creator economies.

Shared Security

WorldChains inherit MetaCore's base-layer security through cryptographic proofs.

Modular Rollups

Support for ZK-Rollup or Optimistic Rollup architectures for scalability.

This modular approach allows developers to deploy entire virtual worlds as independent yet interoperable blockchains.
MetaX

Cross-Domain Communication Layer

MetaCore's MetaX Layer functions as the communication fabric of the network, enabling secure and efficient cross-domain interactions.

Protocol Design

Inspired by IBC, establishes standardized message-passing and asset-bridging protocols.

Interoperability

Assets, identities, and AI agents can migrate across worlds while retaining integrity.

Security

Cross-chain messages validated through light-client verification and cryptographic commitments.

MetaX transforms MetaCore into an interconnected multiverse, where AI agents, creators, and users can move freely between environments.
MetaDA

Data Availability and Storage Layer

The MetaDA Layer addresses the challenge of scalable and verifiable data storage for large virtual worlds and AI computations.

Hybrid Architecture

Combines on-chain commitments with off-chain storage (Celestia, Arweave, IPFS).

Data Verification

Erasure-coding and sampling proofs guarantee data availability without excessive load.

Composable DA Modules

Developers can select different DA backends based on cost, performance, or compliance.

Handles massive AI datasets, 3D assets, and user-generated content at scale while maintaining verifiability.
ComputeHub

AI Compute and Service Layer

The top layer of MetaCore, ComputeHub, provides a decentralized marketplace for AI computation and inference services.

Marketplace Functionality

Requestors post AI tasks while Providers offer GPU or model capacity.

Verifiable Results

AI outputs verified through TEE or ZKML proofs, ensuring integrity without central authority.

Economic Model

All computations settled using MetaCore Token with built-in staking and incentives.

WorldChains Integration

Virtual worlds can invoke ComputeHub for NPC intelligence, simulations, or generative content.

ComputeHub turns MetaCore into a verifiable AI layer, where every piece of intelligence can be proven, paid for, and reused.

Design Principles

MetaCore's architecture is guided by four core principles:

Modularity

Each component is independently upgradable and replaceable, enabling continuous innovation.

Interoperability

Unified standards for identity, assets, and communication allow seamless cross-chain collaboration.

Verifiability

Every computation, transaction, and data state is cryptographically provable.

Scalability

Parallel execution, Rollup integration, and modular DA ensure high throughput.

Conclusion

MetaCore's system architecture represents the blueprint for the intelligent metaverse — an ecosystem where decentralized infrastructure meets verifiable AI computation. By combining modular blockchain engineering with AI-native design, MetaCore lays the groundwork for a future in which every virtual world, digital identity, and intelligent agent can coexist within a single, transparent, and autonomous framework.

CHAPTER 05

Core Components

MetaCore's functionality is powered by a suite of integrated components that work together to form the backbone of its intelligent, interoperable ecosystem. Each component plays a specific role in linking identity, ownership, computation, and scalability within the metaverse. Together, they create a unified framework where AI agents, creators, and virtual worlds can interact transparently and autonomously.

Four Core Components

01

MetaCore Decentralized Identity

MC-DID

The MC-DID system serves as the identity and reputation foundation of the MetaCore network. It allows humans, AI agents, and organizations to create, own, and manage self-sovereign identities without relying on centralized authorities.

Key Features
W3C-Compliant DID Standard

Fully compatible with W3C DID and Verifiable Credentials frameworks, enabling interoperability across platforms.

Selective Disclosure and Privacy

Users can reveal only necessary attributes via Zero-Knowledge Proofs (zk-SNARK) or BBS+ signatures.

Reputation and Soulbound Tokens (SBT)

Non-transferable tokens representing reputation, contributions, or governance weight.

AI Agent Identities

Every AI agent is registered as a DID entity, allowing auditability, licensing, and cross-world persistence.

Compliance Ready

Optional VC-based KYC modules for regulatory requirements without compromising decentralization.

Impact

MC-DID transforms digital identity from a static record into a dynamic, verifiable trust layer—a foundation for cross-chain access, AI-human collaboration, and decentralized reputation.

02

MetaCore Licensing Protocol

MC-721L / MC-1155X

MetaCore introduces an advanced digital ownership framework through its extended NFT standards — MC-721L (for single assets) and MC-1155X (for multi-asset collections). These protocols embed licensing logic, authorship data, and royalty mechanisms directly into NFT metadata.

Key Features
On-Chain Licensing

Each NFT can encode license types such as "personal use," "commercial use," or "derivative creation" within its metadata.

Automated Royalty Distribution

Smart contracts automatically distribute income between original creators, model owners, and derivative contributors.

Derivative Linking

NFTs include references to parent assets, enabling lineage tracking and transparent attribution.

Proof-of-Origination

AI-generated content includes verifiable fingerprints (model ID, prompt hash, data signature).

Programmable Rights Management

Licensing conditions can evolve dynamically through DAO votes or multi-party governance.

Impact

MC-721L and MC-1155X establish a new paradigm for programmable digital rights management, allowing creators and AI developers to monetize their work in a transparent, verifiable, and perpetual manner.

03

MetaCore ComputeHub

AI Computation Marketplace

The ComputeHub is MetaCore's decentralized AI computation marketplace — a trustless infrastructure connecting those who require computation (Requestors) with those who provide it (Providers).

Key Features
AI-Native Compute Market

Supports inference, training, data labeling, simulation, and generation workloads.

Verifiable Computation

Results validated using Trusted Execution Environments (TEE) or ZKML proofs.

Smart Contract Governance

Each task includes defined SLA, collateral, and challenge period, enforced automatically on-chain.

Economic Layer

Providers earn MetaCore Tokens as rewards, misbehavior results in collateral slashing.

Cross-World Integration

Virtual worlds can access ComputeHub to power in-game AI, NPC behavior, or generative experiences.

Transparency and Arbitration

Decentralized verifier network ensures result accuracy and resolves disputes via cryptographic proofs.

Impact

ComputeHub enables trustless AI execution — transforming AI computation into an auditable, decentralized service market where performance and honesty are economically aligned.

04

WorldChain Factory

Scalability Engine

The WorldChain Factory provides the infrastructure for deploying custom subchains (WorldChains) tailored to different virtual environments and applications. It is the scalability engine of the MetaCore ecosystem.

Key Features
One-Click Deployment

Launch WorldChains with configurable consensus, runtime (EVM/WASM), gas models, and permission controls.

Inherited Security

Each WorldChain anchors to MetaCore Settlement Layer, inheriting finality and validator guarantees.

Cross-Domain Communication

Seamless integration with MetaX allows WorldChains to exchange messages, assets, and events.

Plug-and-Play Modules

Support for pre-built modules including MC-DID, NFT standards, and ComputeHub integration.

Optimized for Scale

Capable of supporting thousands of concurrent virtual worlds while maintaining interoperability.

Impact

WorldChain Factory empowers developers, studios, and enterprises to create independent yet interconnected ecosystems, forming a network of virtual worlds that share the same economic and computational backbone.

Integration of Components

Each component of MetaCore is designed to interlock seamlessly with the others:

MC-DID identities authenticate users and AI agents.

MC-721L / 1155X governs ownership and licensing of digital assets.

ComputeHub provides verifiable AI computation that fuels intelligent behaviors.

WorldChain Factory ensures applications can scale independently while remaining interoperable.

Together, they compose the foundation of an intelligent, self-regulating metaverse, where ownership, computation, and collaboration converge into a single transparent ecosystem.

CHAPTER 06

Tokenomics

The MetaCore Token forms the backbone of the MetaCore ecosystem — enabling computation, governance, staking, and royalty distribution across all layers of the network.

Total Fixed Supply

50,000,000 MetaCore

Ensuring predictable economics and long-term sustainability

There are no presale, no public sale, and no liquidity allocations; all tokens are distributed to align contributors, developers, and the community toward collective growth.

Token Generation Event (TGE) and Allocation Overview

Allocation Category Amount of Token % of Total Supply Unlock % at TGE Cliff Period (months) Vesting Period (months) TGE % of Total Supply
Ecosystem & Rewards
22,500,000 45% 35% 0 30 15.75%
Foundation Reserve
7,500,000 15% 10% 6 36 1.5%
Core Team & Advisors
7,500,000 15% 12% 12 36 1.8%
R&D & Infrastructure Fund
7,500,000 15% 20% 0 24 3%
Strategic Partners & Data Licensing
2,500,000 5% 25% 6 18 1.25%
Marketing & Community
2,500,000 5% 30% 0 12 1.5%

Token Utility

Network Gas & Transaction Fees

MetaCore is used to pay for all network and contract operations.

Validator Staking

Validators stake MetaCore to secure the network and earn rewards.

Compute Settlement (ComputeHub)

AI inference, training, and verification jobs are paid in MetaCore.

Licensing & Royalties

NFT and content licensing via MC-721L / 1155X automatically distribute royalties in MetaCore.

Governance (MetaDAO)

Holders vote on proposals, upgrades, and treasury allocations.

Ecosystem Incentives

Distributed to developers, creators, and contributors expanding MetaCore's ecosystem.

CHAPTER 07

Governance (MetaDAO)

MetaCore operates under a decentralized autonomous governance framework known as MetaDAO. It is designed to ensure that every critical decision — from protocol upgrades to treasury allocations — is executed transparently, democratically, and securely.

MetaDAO establishes a bicameral governance model, combining community-driven participation with technical oversight, ensuring both agility and accountability in protocol evolution.

Governance Structure

Token House

Economic Chamber

Composed of MetaCore token holders
Responsibilities:
  • Parameter updates
  • Budget proposals
  • Ecosystem funding
  • Gas fee adjustments
  • Staking rewards configuration
  • Grant approvals
Voting Power: Proportional to staked MetaCore amount

Builder Council

Technical Chamber

Validators, developers, and recognized ecosystem contributors
Responsibilities:
  • Protocol upgrades
  • Network security standards
  • Emergency actions
  • Technical review
  • Security audits
  • Veto and override powers
Special Powers: Veto and override for technical/security proposals

This bicameral design ensures that economic and technical decisions are independently reviewed while maintaining unified execution under MetaCore's governance contract system.

Governance Process

The governance process follows a structured and transparent lifecycle:

01
Proposal Submission

Any verified member can submit a proposal through the governance portal.

02
Community Review

Proposals undergo an open discussion phase (minimum 7 days).

03
On-Chain Voting

Token House conducts formal on-chain vote, requiring quorum and majority.

04
Council Validation

Builder Council reviews and ratifies for technical soundness.

05
Execution

Proposals are time-locked before automatic enactment via smart contract.

Emergency Protocol

Critical updates (e.g., network exploits or consensus failures) can trigger a fast-track process with dual-signature authorization from the Foundation and Builder Council, ensuring immediate but controlled intervention.

Treasury and Funding Mechanism

Treasury Composition

Funded by transaction fees, ComputeHub service fees, and burned-token redistribution.

Funding Allocation

DAO-approved grants support R&D, ecosystem growth, creator programs, and community initiatives.

Transparency

All treasury movements are fully on-chain, auditable, and governed by smart contracts with periodic reporting.

The goal of MetaDAO is to minimize centralized control while ensuring long-term sustainability through structured, data-driven decision-making.

CHAPTER 08

Security and Compliance

Security and regulatory resilience are the cornerstones of MetaCore's design philosophy. Given the complex nature of AI computation, data exchange, and digital ownership, MetaCore integrates multilayer security mechanisms that protect users, developers, and assets without compromising decentralization.

Network and Protocol Security

Multi-Layer Auditing

All core contracts and modules undergo third-party audits and continuous formal verification.

Consensus Security

DPoS + BFT consensus ensures resistance to Sybil and double-spend attacks, with economic penalties (slashing) for malicious behavior.

MEV Mitigation

Adopts Proposer-Builder Separation (PBS) and inclusion lists to minimize miner extractable value.

Smart Contract Safety

Mandatory code review and modular upgradability prevent exploit propagation across subchains.

Incident Response

Emergency pause and rollback mechanisms managed by Builder Council ensure rapid containment of protocol-level threats.

AI and Compute Verification Security

Given MetaCore's AI-native nature, ComputeHub introduces a verifiable compute security model combining:

01
Trusted Execution Environments (TEE)

Ensures secure enclave computation for inference and training tasks.

02
Zero-Knowledge Machine Learning (ZKML)

Provides cryptographic verification of computation results without revealing data.

03
Dispute Resolution Layer

Allows validators or third-party verifiers to challenge invalid compute results before final settlement.

This hybrid model guarantees provable correctness of AI computations while maintaining performance efficiency.

Privacy and Data Protection

MetaCore upholds privacy through ZK-based identity proofs and encrypted metadata management, balancing user confidentiality with regulatory transparency.

DID Privacy

Users can verify credentials without disclosing personal data.

Encrypted Data Channels

End-to-end encryption for inter-world communication and asset exchange.

Selective Disclosure

Users and AI agents reveal only the minimum information required for compliance or verification.

Regulatory Compliance and Legal Readiness

MetaCore integrates optional compliance modules to enable lawful participation in regulated jurisdictions without enforcing global centralization.

VC-Based KYC/AML Framework

Allows regulated institutions to verify identities using verifiable credentials without storing sensitive data.

Jurisdictional Adaptability

Compliance modules are modular and can be activated only where legally required.

Auditability

All on-chain operations are traceable for legal transparency while maintaining pseudonymity.

MetaCore's Philosophy

"Privacy by design, compliance by choice" — providing a flexible balance between individual sovereignty and institutional trust.

Long-Term Security Governance

MetaCore's security governance evolves through DAO oversight and external partnerships:

Periodic security audits and bounty programs.

Continuous collaboration with academic and industry experts for AI integrity research.

Dynamic update of threat models and validator risk scoring via decentralized oracles.

Through these mechanisms, MetaCore ensures that both its infrastructure and governance remain resilient, transparent, and future-proof in a rapidly evolving digital landscape.

CHAPTER 09

Ecosystem and Partnerships

MetaCore's long-term vision extends far beyond its core protocol — it aims to cultivate a vibrant, self-sustaining ecosystem that bridges developers, creators, AI providers, enterprises, and virtual world communities.

The MetaCore ecosystem is built around the principle of collaborative growth, where every participant contributes value and receives verifiable, on-chain rewards in return.

Ecosystem Philosophy

MetaCore's ecosystem strategy follows three fundamental principles:

01
Interoperability

Every component, world, and application should communicate seamlessly using open standards such as MetaX and MC-DID.

02
Composability

Developers can build, reuse, and expand on existing infrastructure without fragmentation or vendor lock-in.

03
Co-Creation

Value creation is shared among creators, developers, and compute providers through transparent smart contract logic and automatic royalty flows.

This design transforms MetaCore into an open collaboration network, empowering communities to co-develop the intelligent metaverse.

Core Ecosystem Verticals

MetaCore's ecosystem development is anchored across five key verticals, each representing a major frontier of Web3 and AI convergence:

Gaming & Virtual Worlds

• Integration with large-scale multiplayer and open-world platforms
• Enabling in-game AI agents, verifiable item ownership, and cross-world asset transfer via WorldChains
• Partnerships with studios building persistent, interoperable metaverse environments

AI Infrastructure & Compute Providers

• Collaboration with decentralized GPU networks and federated compute systems
• AI developers can publish and monetize models directly through ComputeHub
• Integration with zero-knowledge and TEE verification protocols for verifiable inference

Digital Content & Creative Economy

• Empowering creators to tokenize and license digital assets under MC-721L and MC-1155X
• Cross-platform NFT interoperability and revenue distribution via smart contracts
• Partnerships with 3D studios, NFT marketplaces, and media publishers

Enterprise & Institutional Adoption

• Offering enterprise-grade DID systems for digital identity, compliance, and supply chain verification
• Use of MetaCore as a decentralized settlement layer for AI data exchange and digital asset management
• Collaboration with regulated entities for transparent and auditable operations

Research & Education Collaborations

• Partnerships with universities, AI labs, and Web3 research institutes
• Funding open research in decentralized AI, verifiable computation, and cryptographic governance
• Incubation programs and hackathons to onboard the next generation of MetaCore builders

Ecosystem Incentive Framework

To drive sustainable growth, MetaCore establishes a multi-layer incentive program designed to reward active participation and long-term contribution:

Builder Grants: Fund development of new dApps, protocols, and SDK integrations on WorldChains

Creator Incentives: Reward artists, developers, and AI model providers through automatic royalty sharing and milestone-based grants

Validator Rewards: Encourage node participation with staking incentives tied to uptime, accuracy, and governance participation

Research & Innovation Funds: Support exploration in zero-knowledge AI verification, privacy computing, and digital identity evolution

Community Growth Campaigns: Allocate resources to ambassadors, content creators, and regional MetaCore communities

All incentives are distributed transparently on-chain via the MetaDAO treasury to maintain accountability and fairness.

Strategic Partnerships

MetaCore actively seeks collaborations across both Web3-native and traditional sectors to expand adoption and enhance interoperability:

AI Networks & Compute Partners: Integration with decentralized GPU and compute providers for verifiable inference

Metaverse & Game Studios: Co-developing persistent virtual environments and cross-chain economies

Blockchain Infrastructures: Collaborations with L1/L2 networks for cross-chain messaging, bridging, and liquidity access

Academic & Research Partners: Cooperative research on ZKML, TEE validation, and decentralized AI economics

Enterprise Collaborations: Joint initiatives on digital identity, copyright management, and AI governance frameworks

By fostering strategic alliances, MetaCore ensures that its protocol is deeply embedded across industries — from entertainment and AI to enterprise data and digital rights management.

AI Ecosystem Partners

OpenAI

OpenAI

GPT-4 • DALL-E • ChatGPT

LLM
Google

Google Gemini

Multimodal AI Platform

Multimodal
Anthropic

Anthropic

Claude AI Assistant

LLM
Meta

Meta AI

Llama Models & VR Integration

Open Source
Stability AI

Stability AI

Stable Diffusion & Image Generation

Image Gen
Hugging Face

Hugging Face

Open AI Model Hub & Deployment

Platform

Ecosystem Growth Roadmap

MetaCore's ecosystem expansion will unfold in several progressive stages:

PHASE
1
Foundation

Protocol Development

Launch MetaCore mainnet, SDKs, and ComputeHub MVP

PHASE
2
Integration

Strategic Partnerships

Integrate with AI compute networks and game developers

PHASE
3
Expansion

Ecosystem Incentives

Initiate builder grants, creator programs, and DAO-based funding

PHASE
4
Institutional

Enterprise & Academic Collaboration

Deploy enterprise DID systems and research initiatives

PHASE
5
Global Scale

Multi-World Interoperability

Connect multiple WorldChains into a unified intelligent metaverse

LONG-TERM VISION

Building the Future Together

The MetaCore ecosystem represents more than technology — it's a movement toward decentralized intelligence. Through open collaboration, transparent governance, and equitable economic incentives, MetaCore is building a world where AI, creators, and communities thrive together.

By aligning innovation with transparency and sustainability, MetaCore will become the infrastructure of choice for the intelligent, interconnected metaverse economy.

CHAPTER 10

Roadmap

The MetaCore roadmap outlines the evolutionary path from protocol design to global ecosystem adoption. It is structured into five key phases, each representing a major milestone toward building the intelligent, interoperable, and decentralized metaverse.

Every phase introduces new technological capabilities, governance structures, and community-driven growth mechanisms — ensuring that MetaCore evolves transparently and sustainably over time.

PHASE
0
Q1–Q2 2025

Research & Foundation

OBJECTIVE

Establish the technical, economic, and governance foundation of MetaCore.

Completion of core research and whitepaper publication

Definition of MetaCore architecture, tokenomics, and DID/NFT standards (MC-DID, MC-721L, MC-1155X)

Design and simulation of the ComputeHub AI marketplace

Initial validator testnet design and staking model finalization

Launch of developer documentation and SDK prototypes

✓ OUTCOME

MetaCore's conceptual framework and economic model are solidified for the upcoming Testnet phase.

PHASE
1
Q3–Q4 2025

Testnet Alpha

OBJECTIVE

Validate core functionalities and security of the MetaCore protocol.

Launch of MetaCore Testnet Alpha featuring Settlement Layer and ComputeHub MVP

Deployment of WorldChain Factory prototype and MetaX cross-domain protocol

Initial validator onboarding and network performance benchmarking

Implementation of DID registration, licensing, and NFT standards in test environment

Early developer grants and bug bounty programs

→ OUTCOME

A stable and secure test environment capable of handling AI computation and cross-world communication.

PHASE
2
Q1–Q2 2026

Testnet Beta

OBJECTIVE

Expand interoperability, scalability, and developer participation.

Integration of ZK-Rollup and Optimistic Rollup architectures for WorldChains

ComputeHub 2.0 release with ZKML and TEE hybrid verification support

Introduction of MetaDAO prototype for testnet governance simulation

SDK integration for Unity, Unreal Engine, and Python environments

Launch of Creator Mining Program and AI model registration trials

→ OUTCOME

Fully operational developer ecosystem and governance testing ahead of mainnet launch.

PHASE
3
Q3–Q4 2026

Mainnet Genesis

OBJECTIVE

Officially launch the MetaCore mainnet and activate decentralized governance.

Mainnet Genesis Block creation and validator network activation

MetaDAO governance and treasury initialization

Launch of first 3–5 partner WorldChains (gaming, AI, and creative industries)

Deployment of full licensing standards and royalty automation systems

Strategic ecosystem partnerships and academic collaborations

★ OUTCOME

MetaCore transitions into a fully decentralized, self-sustaining blockchain supporting real-world AI and virtual applications.

PHASE
4
2027

Ecosystem Expansion

OBJECTIVE

Scale the MetaCore ecosystem globally and enhance interoperability.

Interconnection of multiple WorldChains into the unified metaverse network

Expansion of ComputeHub capacity through decentralized GPU and cloud partnerships

MetaCore integration with enterprise DID and compliance systems

DAO-led global grant programs and regional community foundations

Listing of MetaCore ecosystem tools and APIs on open developer marketplaces

→ OUTCOME

MetaCore achieves cross-industry adoption and becomes the primary infrastructure for AI-powered metaverse applications.

PHASE
5
Beyond 2028

Intelligent Metaverse Integration

OBJECTIVE

Realize the full MetaCore vision — an intelligent, autonomous digital civilization.

Large-scale deployment of AI agents operating autonomously across multiple virtual worlds

Cross-chain interoperability between MetaCore and external blockchain ecosystems

Implementation of decentralized AI model governance and licensing frameworks

Establishment of long-term sustainability protocols for energy, data, and compute balance

MetaCore becomes a global hub for verifiable digital intelligence and creative economies

∞ OUTCOME

A mature, decentralized, and AI-integrated metaverse economy — open, intelligent, and co-owned by its participants.

LONG-TERM VISION

The Living Evolution Plan

MetaCore's roadmap is not a fixed timeline but a living evolution plan, driven by community governance, research progress, and technological innovation. The goal is to continuously expand the boundaries of what's possible — enabling a future where AI, creators, and virtual worlds exist in harmony on a single, verifiable blockchain foundation.

MetaCore — Building the intelligent, decentralized future of the metaverse.