Blockchain-integrated decentralized fault tolerance for secure and energy-efficient multi-cloud interoperability

IF 5.7 3区计算机科学 Q1 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE

Sustainable Computing-Informatics & Systems Pub Date : 2025-07-16 DOI:10.1016/j.suscom.2025.101170

V.M. Sivagami , K.S. EaswaraKumar , D. Jayanthi , S. Kalavathi

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引用次数: 0

Abstract

Cloud service provider, multi-cloud scheme has become a strategic fashion to maximize reliability, affordability, and performance. To pose major difficulties with regard to fault tolerance, interoperability, security, and muscularity economy. To address these issues, this employment suggests a unique blockchain-integrated decentralized error allowance system. The advice model uses Proof of Stake (PoS) as the consensus chemical mechanism to improve DOE economy while preserving strong security measure and performance criteria. By around 30 %, smart contracts help to automatically reclaim defect, therefore greatly let down migration costs and downtime. To guarantee data integrity and secrecy across heterogenous swarm environs, the model as well flux a multi-layered security computer architecture desegregate homomorphic encryption, Zero-Knowledge Proofs (ZKP), and Decentralized Identity (DIDs). Atomic swop and cross-chain bridgework avail to enable cross-chain interoperability, hence enabling flawless and good data point exchanges with lower limit delay. Validating the achiever of the indicate strategy, the data-based finding point important addition in free energy efficiency, certificate success rate outdo 90 %, and lour migration costs. These results show the hypothesis of the suggested model to change multi-cloud direction strategies, thereby offering a strong ground for future investigations and practical applications.

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区块链集成去中心化容错，实现安全高效的多云互操作性

云服务提供商，多云方案已成为最大限度地提高可靠性、可负担性和性能的战略时尚。在容错、互操作性、安全性和肌肉经济性方面提出主要困难。为了解决这些问题，这项工作提出了一种独特的区块链集成分散错误允许系统。该建议模型使用权益证明（PoS）作为共识化学机制，以提高DOE经济性，同时保持强大的安全措施和性能标准。大约30% %，智能合约有助于自动回收缺陷，因此大大降低了迁移成本和停机时间。为了保证异构群体环境中的数据完整性和保密性，该模型还采用了多层安全计算机体系结构，消除了同态加密、零知识证明（ZKP）和分散身份（did）。原子交换和跨链桥接有助于实现跨链互操作性，从而实现具有下限延迟的完美和良好的数据点交换。验证了指示策略的完成者，基于数据的寻点在自由能源效率、证书成功率超过90% %、人力迁移成本等方面有重要的增加。这些结果证明了所建议模型的假设能够改变多云方向策略，从而为未来的研究和实际应用提供了坚实的基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Sustainable Computing-Informatics & Systems COMPUTER SCIENCE, HARDWARE & ARCHITECTUREC-COMPUTER SCIENCE, INFORMATION SYSTEMS

CiteScore

10.70

自引率

4.40%

发文量

142

期刊介绍： Sustainable computing is a rapidly expanding research area spanning the fields of computer science and engineering, electrical engineering as well as other engineering disciplines. The aim of Sustainable Computing: Informatics and Systems (SUSCOM) is to publish the myriad research findings related to energy-aware and thermal-aware management of computing resource. Equally important is a spectrum of related research issues such as applications of computing that can have ecological and societal impacts. SUSCOM publishes original and timely research papers and survey articles in current areas of power, energy, temperature, and environment related research areas of current importance to readers. SUSCOM has an editorial board comprising prominent researchers from around the world and selects competitively evaluated peer-reviewed papers.