⬛UA Data Layer

The UA Data Layer is composed of two main components: the data availability layer (UniAgent DA) and a decentralized storage system (UniAgent Storage). These components are supported by one or more independent consensus networks, which play a crucial role in both the UniAgent DA and UniAgent Storage.

For UniAgent Storage, each consensus network ensures the correct ordering of the data blocks that are uploaded, while also validating the storage mining process and implementing the associated incentive mechanisms via smart contracts. Meanwhile, in the case of UniAgent DA, the consensus network is responsible for guaranteeing the data availability of each block by verifying aggregated signatures from the relevant data availability quorum. This structure ensures that both data storage and availability are managed securely and efficiently within the decentralized ecosystem.

UniAgent DA++

Challenges with DAS

Data security relies on the consensus protocol of DAS clients, which may reduce security compared to the Ethereum chain.

High network transmission overhead with large data volumes.

Core Features

On-Chain Verification:

Encode Proof: Verify RS encoding correctness on-chain.

Duality Proof: Ensure data availability within a specific timeframe on-chain.

Security assumptions: Relies on one honest validator for security.

High Performance:

Supports large data writes with a speed of 100GB/s.

Fast proof generation offline, high encoding performance at 100MB/s.

Minimal impact on online verification, with challenges and verifications only triggered by false proofs.

Infinity scalable:

Supports storage capacity above EB level.

Supports expansion to millions of storage nodes.

Supports custom private storage pools.

Decentralized, On-Chain High-Performance Data Availability Solution

Decentralized Storage:

Users submit commitments and RS encoding parameters on-chain.

Blob size can be variable, and storage duration is customizable.

Data is encoded into multiple blocks based on custom encoding parameters and sent to different storage nodes.

Decentralized Verification:

No DAC; storage nodes submit proofs on-chain for validation.

Encode Proof indicates that a storage node has stored a data block, which belongs to a specific part of the encoded user data.

Duality Proof demonstrates the continuous availability of data on storage nodes throughout its validity period.

Cost-Efficient On-Chain Verification:

Aggregated verification with fixed-size Duality Proof reduces verification costs.

Proofs of data blocks from a single storage node are aggregated for verification on-chain.

Uses optimistic verification to minimize on-chain computational expenses.

Anyone can verify proofs offline and initiate on-chain challenges if discrepancies or missing proofs are detected.

UniAgent AIStorage

The AI Native Storage Layer is purpose-built to address the unique storage requirements of AI data and models, which often exceed the capabilities of traditional decentralized storage solutions. With its advanced design, this layer offers specialized features to support the demanding nature of AI operations, ensuring efficiency, scalability, programmability, and data assetization.

Firstly, the AI Native Storage Layer is optimized for high-performance AI services. Generative AI models depend on rapid and efficient access to vast datasets for training and inference. Delays in data retrieval can severely impact service quality. To counter this, the storage layer streamlines data access and retrieval processes, enabling seamless, high-speed computations essential for AI-driven applications.

Secondly, scalability is a core pillar of this storage layer, ensuring it can accommodate the immense data volumes required by large-scale generative AI models. Its architecture supports storage capacities at exabyte (EB) levels, offering robust solutions for managing massive datasets. Additionally, a private storage pool feature allows tailored storage allocations for specific clients or projects, maintaining strict privacy and security standards while meeting diverse user requirements.

Thirdly, the programmability of this storage layer introduces unprecedented flexibility and automation. Through smart contracts, users can customize ownership, access controls, and storage configurations to suit their specific needs. These self-executing contracts enhance security and ensure efficient data management within the decentralized ecosystem, empowering users with granular control over their data assets.

Lastly, the system’s native support for data assetization elevates its functionality by enabling data to be treated as a tradable asset. With features such as tokenization, trading, and monetization, users can unlock new economic opportunities and derive greater value from their data. This capability transforms data from a static resource into a dynamic asset, fostering innovation and financial growth within the decentralized AI landscape.

In summary, the AI Native Storage Layer is a foundational component of the UniAgent ecosystem, offering a tailored, high-performance storage solution capable of meeting the complex and demanding needs of AI services. It combines scalability, programmability, and assetization to create a robust infrastructure that drives efficiency and unlocks the full potential of AI data.