{"title":"DRAP-CPU:通过动态优先资源分配策略实现虚拟机迁移的新方法","authors":"Harmeet Kaur, Shubham Gargrish","doi":"10.1007/s00542-024-05725-9","DOIUrl":null,"url":null,"abstract":"<p>In this study, we explore the realm of cloud computing with a particular emphasis on optimizing Virtual Machine (VM) migration, focusing primarily on the effective utilization of CPU resources. The primary objective of our research is to enhance VM migration processes by introducing a novel CPU-centric approach, thereby improving resource management, and reducing operational costs within cloud environments. We conducted extensive experimentation to develop and validate our methods. The core of our methodology revolves around advanced load balancing techniques that prioritize CPU usage. This strategic focus on CPU allocation is designed to address the common challenges in VM migration, such as resource inefficiency and high operational expenses. Our results indicate a marked improvement in VM migration efficiency compared to traditional methods. Specifically, we observed a 78% reduction in the costs associated with VM migrations, underscoring the economic viability of our approach. Additionally, our method exhibited a notable increase in the accuracy and efficiency of resource allocation during the migration process. We achieved a 100% accuracy rate in maintaining optimal load levels, a significant advancement over existing techniques. This enhancement is crucial in ensuring seamless VM operations and minimizing disruptions during migration. Our research contributes to the field of cloud computing by proposing a CPU-focused strategy for VM migration. This approach not only advances the efficiency of VM migrations but also offers substantial economic benefits. By addressing both the technical and cost-related aspects of VM migration, our study provides a comprehensive solution that could be instrumental in shaping future developments in cloud-based resource management and VM operations.</p>","PeriodicalId":18544,"journal":{"name":"Microsystem Technologies","volume":"245 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-07-24","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"DRAP-CPU: a novel vm migration approach through a dynamic prioritized resource allocation strategy\",\"authors\":\"Harmeet Kaur, Shubham Gargrish\",\"doi\":\"10.1007/s00542-024-05725-9\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>In this study, we explore the realm of cloud computing with a particular emphasis on optimizing Virtual Machine (VM) migration, focusing primarily on the effective utilization of CPU resources. The primary objective of our research is to enhance VM migration processes by introducing a novel CPU-centric approach, thereby improving resource management, and reducing operational costs within cloud environments. We conducted extensive experimentation to develop and validate our methods. The core of our methodology revolves around advanced load balancing techniques that prioritize CPU usage. This strategic focus on CPU allocation is designed to address the common challenges in VM migration, such as resource inefficiency and high operational expenses. Our results indicate a marked improvement in VM migration efficiency compared to traditional methods. Specifically, we observed a 78% reduction in the costs associated with VM migrations, underscoring the economic viability of our approach. Additionally, our method exhibited a notable increase in the accuracy and efficiency of resource allocation during the migration process. 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引用次数: 0
摘要
在本研究中,我们探索了云计算领域,重点是优化虚拟机(VM)迁移,主要关注 CPU 资源的有效利用。我们研究的主要目的是通过引入一种以 CPU 为中心的新方法来增强虚拟机迁移过程,从而改善资源管理,降低云环境中的运营成本。我们进行了大量实验,以开发和验证我们的方法。我们方法的核心围绕着先进的负载平衡技术,该技术可优先考虑 CPU 的使用。这种对 CPU 分配的战略性关注旨在解决虚拟机迁移中的常见难题,如资源效率低下和运营成本高昂。我们的研究结果表明,与传统方法相比,虚拟机迁移效率有了显著提高。具体来说,我们观察到与虚拟机迁移相关的成本降低了 78%,这凸显了我们方法的经济可行性。此外,我们的方法还显著提高了迁移过程中资源分配的准确性和效率。与现有技术相比,我们在保持最佳负载水平方面实现了 100% 的准确率,这是一项重大进步。这一改进对于确保无缝虚拟机操作和最大限度地减少迁移过程中的中断至关重要。我们的研究提出了一种以 CPU 为中心的虚拟机迁移策略,为云计算领域做出了贡献。这种方法不仅能提高虚拟机迁移的效率,还能带来巨大的经济效益。通过解决虚拟机迁移的技术和成本相关问题,我们的研究提供了一个全面的解决方案,有助于塑造基于云的资源管理和虚拟机操作的未来发展。
DRAP-CPU: a novel vm migration approach through a dynamic prioritized resource allocation strategy
In this study, we explore the realm of cloud computing with a particular emphasis on optimizing Virtual Machine (VM) migration, focusing primarily on the effective utilization of CPU resources. The primary objective of our research is to enhance VM migration processes by introducing a novel CPU-centric approach, thereby improving resource management, and reducing operational costs within cloud environments. We conducted extensive experimentation to develop and validate our methods. The core of our methodology revolves around advanced load balancing techniques that prioritize CPU usage. This strategic focus on CPU allocation is designed to address the common challenges in VM migration, such as resource inefficiency and high operational expenses. Our results indicate a marked improvement in VM migration efficiency compared to traditional methods. Specifically, we observed a 78% reduction in the costs associated with VM migrations, underscoring the economic viability of our approach. Additionally, our method exhibited a notable increase in the accuracy and efficiency of resource allocation during the migration process. We achieved a 100% accuracy rate in maintaining optimal load levels, a significant advancement over existing techniques. This enhancement is crucial in ensuring seamless VM operations and minimizing disruptions during migration. Our research contributes to the field of cloud computing by proposing a CPU-focused strategy for VM migration. This approach not only advances the efficiency of VM migrations but also offers substantial economic benefits. By addressing both the technical and cost-related aspects of VM migration, our study provides a comprehensive solution that could be instrumental in shaping future developments in cloud-based resource management and VM operations.