Unibase: Building the Core Infrastructure for an Open Agent Internet

The vision and positioning of Unibase

AI technology is transitioning from a tool-based model to autonomous agents, but the lack of standardized memory infrastructure and cross-platform interoperability has become a bottleneck limiting development. Unibase aims to become the core infrastructure to address this pain point and lay the foundation for the future open agent internet.

Advantages of Decentralized Memory Layer

Traditional Web2 platforms have their data controlled by centralized institutions, leading to privacy and value distribution issues. Unibase, through a decentralized approach, allows agents to possess:

• Sustainable memory: supports long-term knowledge accumulation.
• Cross-platform sharing: Data and agent behavior have composability.
• User Data Sovereignty: Users can truly control their interactions and the value of their data.

Detailed Explanation of the Three Major Technical Modules

1. Membase: Long-term memory storage that combines zero-knowledge proofs to ensure the trustworthiness of storage and retrieval.
2. AIP Protocol: Cross-agent interoperability protocol that supports identity authentication, shared memory, and multi-agent collaboration.
3. Unibase DA: A high-throughput data availability layer that is compatible with mainstream blockchain ecosystems, meeting the needs of real-time AI calls.

The Role and Incentive Mechanism of UB Tokens

The Unibase token UB plays multiple roles within the ecosystem:

• Payment function: payment storage, invocation, and deployment fees.
• Governance Rights: Locking UB converts it to veUB, allowing participation in DAO voting and reward distribution.
• Incentive mechanism: Staking UB activates the agent, and contributing knowledge can earn mining rewards.

Through the ve(3,3) model, Unibase binds the interests of long-term governance and knowledge contributors, promoting the sustainable development of the ecosystem.

Ecology and Typical Applications

Unibase has been implemented in multiple intelligent agent applications:

• BitAgent: Multi-Agent Interaction Platform.
• TwinX: Transforming social media content into intelligent agents.
• Beeper: The intent agent that connects social and DeFi.
• TradingFlow: A self-trading assistant driven by natural language.

In addition, Unibase has integrated core protocols and frameworks such as MCP, ElizaOS, Virtuals, and Swarms, creating an interconnected ecosystem of intelligent agents.

Roadmap and Future Outlook

Unibase’s future plans include:

• 2025: Completion of mainnet launch and UB token issuance.
• 2026: Launch the Memory Node Expansion Plan to enhance ecological capacity and stability.
• Q2 2026: Launch AIP 2.0 to achieve cross-chain and cross-platform memory synchronization.

These plans will make Unibase an indispensable infrastructure in the agent ecosystem.

Conclusion

Unibase is not just a technological product; it is a key driver that propels AI towards self-learning, self-collaboration, and self-evolution. Through memory layers, interoperability protocols, and token economic mechanisms, Unibase is expected to become the core pillar of the next generation of the intelligent agent internet.