Modular AI Computing Network
Last updated
Last updated
Modular rollup technology indeed provides a new approach and solution to address the impossible triangle problem of traditional blockchain. By breaking down the blockchain system into different modules, rollup implements a layered structure to achieve more efficient transaction processing and data management, thereby balancing decentralization, security, and scalability to some extent. Rollup modules typically include:
Settlement Layer: Responsible for updating the asset status of the blockchain, usually operating on Layer 1 (the main chain). It verifies the data submitted by rollup and updates the results to the main chain to ensure the security and accuracy of assets.
Execution Layer: Processes transactions on rollup, records, and updates transaction status. It can execute transactions quickly on the rollup network without waiting for confirmation from the main chain, thereby improving transaction processing speed and efficiency.
Consensus Layer: Ensures consensus on the status of each transaction, ensuring the legality and security of transactions. It usually adopts efficient consensus algorithms such as Proof of Stake or Proof of Authority.
Data Availability Layer: Records all transaction data that occurs on rollup and provides full data when updating asset status in the settlement layer. This helps ensure data traceability and integrity while enhancing system security and reliability.
However, for ZK-Rollup, an additional core module is required, the Compute Layer.
The Lumoz computer layer, serving as the computational module, possesses the following characteristics:
Decentralized Computing: The Lumoz computational layer operates as a blockchain network, employing a hybrid consensus mechanism of Proof of Stake (POS) and Proof of Work (POW) to ensure decentralized computing power. This architecture provides continuous ZKP computing capacity for zkRollups and offers a secure data processing and model training environment for AI applications.
Robust Computational Stability: Comprised of thousands of GPU/CPU nodes, Lumoz computing nodes ensure not only the continuous computational capacity for ZKP and ZKFP but also support large-scale parallel computing required by AI, guaranteeing the efficient execution of computational tasks.
Wide Compatibility: Lumoz is highly compatible with mainstream Rollup solutions in the blockchain industry, such as Polygon zkEVM, zkSync, Scroll, and Starknet. It also caters to various computational needs in the AI field, providing strong support for different tech stacks through its unique computing mechanism.
Cost-Efficiency: The decentralized computing layer of Lumoz combines a comprehensive economic model, resulting in low-cost ZKP generation. This cost-efficiency is equally applicable to AI computational tasks, providing users with an economical and efficient solution for AI and blockchain computing.
