通过优化云中的人工智能/ML 工作负载,提高安全性和可扩展性

Sabina Priyadarshini, Tukaram Namdev Sawant, Gitanjali Bhimrao Yadav, J. Premalatha, Sanjay R. Pawar
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摘要

人工智能(AI)和机器学习(ML)应用的普及,使云计算环境中对高效资源分配、工作负载调度和并行计算能力的需求呈指数级增长。本研究解决了在云计算环境中提高人工智能/ML 工作负载的可扩展性和安全性的关键需求。研究强调优化资源分配策略,以适应人工智能/ML 工作负载的不同要求。高效的资源分配可确保计算资源得到合理利用,避免出现瓶颈和延迟问题,这些问题可能会阻碍人工智能/ML 应用程序的性能。研究探索了先进的并行计算技术,以充分利用可能的云基础设施,提高人工智能/移动计算的速度和效率。整合强大的安全措施对于保护云中处理的敏感数据和模型至关重要。研究深入探讨了安全的多方计算和加密技术,如混合 Heft Pso Ga 算法、自适应批量流调度模块(ABSS)的启发式函数、资源分配并行计算以及为 AI/ML 工作负载量身定制的 Kuhn-Munkres 算法,以确保整个计算生命周期的机密性和完整性。为了验证所提出的方法,研究采用了大量模拟和实际实验。所提出的 ABSS_SSMM 方法达到了最高的准确率和吞吐量,分别为 98% 和 94%。这项研究的贡献延伸到了更广泛的云计算和人工智能/人工智能社区。通过提供可扩展的安全解决方案,本研究旨在增强云服务提供商、企业和研究人员利用人工智能/移动语言技术的信心。预计研究结果将为下一代云平台的设计和实施提供参考,这些平台可无缝支持不断发展的人工智能/ML 应用,促进创新并推动智能技术在不同领域的应用。
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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Enhancing security and scalability by AI/ML workload optimization in the cloud

The pervasive adoption of Artificial Intelligence (AI) and Machine Learning (ML) applications has exponentially increased the demand for efficient resource allocation, workload scheduling, and parallel computing capabilities in cloud environments. This research addresses the critical need for enhancing both the scalability and security of AI/ML workloads in cloud computing settings. The study emphasizes the optimization of resource allocation strategies to accommodate the diverse requirements of AI/ML workloads. Efficient resource allocation ensures that computational resources are utilized judiciously, avoiding bottlenecks and latency issues that could hinder the performance of AI/ML applications. The research explores advanced parallel computing techniques to harness the full possible cloud infrastructure, enhancing the speed and efficiency of AI/ML computations. The integration of robust security measures is crucial to safeguard sensitive data and models processed in the cloud. The research delves into secure multi-party computation and encryption techniques like the Hybrid Heft Pso Ga algorithm, Heuristic Function for Adaptive Batch Stream Scheduling Module (ABSS) and allocation of resources parallel computing and Kuhn–Munkres algorithm tailored for AI/ML workloads, ensuring confidentiality and integrity throughout the computation lifecycle. To validate the proposed methodologies, the research employs extensive simulations and real-world experiments. The proposed ABSS_SSMM method achieves the highest accuracy and throughput values of 98% and 94%, respectively. The contributions of this research extend to the broader cloud computing and AI/ML communities. By providing scalable and secure solutions, the study aims to empower cloud service providers, enterprises, and researchers to leverage AI/ML technologies with confidence. The findings are anticipated to inform the design and implementation of next-generation cloud platforms that seamlessly support the evolving landscape of AI/ML applications, fostering innovation and driving the adoption of intelligent technologies in diverse domains.

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