Lumoz Modular Compute Layer
Bangkok, Thailand, 10th December 2024, ZEX PR WIRE, The Lumoz Protocol is a globally distributed modular computing protocol dedicated to providing advanced zero-knowledge proof (ZKP) services. It supports the development of ZK technology and provides robust computational power for cutting-edge technologies such as ZK and AI.
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Decentralized Computing: The Lumoz Compute Layer operates on a blockchain network using a hybrid consensus mechanism of Proof of Stake (PoS) and Proof of Work (PoW), ensuring decentralized computing capabilities. This architecture provides continuous ZKP computation for zkRollups and offers a secure data processing and model training environment for AI applications.
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High Computational Stability: Lumoz’s computational nodes consist of thousands of GPU/CPU nodes. This not only ensures the continuous computation of ZKPs but also supports the large-scale parallel computing required for AI, guaranteeing efficient execution of complex computational tasks.
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Strong Compatibility: Lumoz is highly compatible with the blockchain industry’s leading Rollup solutions such as Polygon zkEVM, zkSync, Scroll, and Starknet. It also meets diverse AI computational needs through its unique computing mechanisms, offering robust support across various technology stacks.
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Cost Efficiency: The Lumoz decentralized compute layer integrates an optimized economic model to enable low-cost ZKP generation. This cost efficiency extends to AI computing tasks, offering users an economical and efficient solution for both AI and blockchain computations.
Lumoz’s ZK Computing Network Boosts ETH 3.0
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Block Production Goals:
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Validator Isolation: Implementing Attester Proposer Separation and execution auctions to separate validators from block production.
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Faster Slot Times: Reducing slot times to 4 seconds to improve block generation speed.
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Staking Goals:
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Lowering Staking Thresholds: Reducing the staking threshold from 32 ETH to 1 ETH to encourage broader participation.
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Achieving Fast Finality: Implementing single-slot finality for faster transaction finalization.
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Cryptographic Goals:
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Chain SNARKification: Integrating zkVM to enhance system privacy and security.
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Long-Term Security: Ensuring the cryptographic security of Ethereum remains resilient for decades or even centuries.
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Efficient Validator Isolation: Lumoz’s modular architecture provides efficient computational power to separate validators from block production. This optimization streamlines validator operations, enhancing the overall decentralization and security of the network.
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Faster Block Generation Speed: Lumoz’s high-performance execution layer supports the reduction of slot times, which is crucial for speeding up block generation. This acceleration ensures the network can quickly respond to and process a higher volume of transactions.
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Supporting Chain SNARKification: By integrating zkVM, Lumoz delivers powerful computational capabilities to support complex zero-knowledge proof operations. This support strengthens system privacy, improves overall security, and ensures the confidentiality and integrity of transaction data.
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Ensuring Long-Term Security: Lumoz’s computing infrastructure provides continuous cryptographic support to Ethereum, ensuring its security remains intact for decades or even centuries. This long-term security is essential for maintaining user trust and network stability.
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Economically Efficient Computational Support: Through its decentralized computing layer and optimized economic model, Lumoz has achieved low-cost ZKP generation. This cost efficiency is not only applicable to blockchain computation tasks but also offers economically efficient solutions for AI applications.
Conclusion
Millie James is an American real estate investor and Adjunct Professor in Entrepreneurship, Emeritus at Business School.
Disclaimer: The views, suggestions, and opinions expressed here are the sole responsibility of the experts. No journalist was involved in the writing and production of this article.