Optimizing the Allocation of Dynamic Workloads in Cloud Infrastructure through the Use of Machine Learning for Cost-Effective Cloud Resource Management

The effective administration of dynamic workloads has emerged as a major obstacle for enterprises moving their operations to cloud computing. Intelligent allocation algorithms that guarantee optimal performance while minimizing operational expenses are necessary due to the fluctuation in demand for...

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Bibliographic Details
Published in:2025 International Conference on Intelligent Control, Computing and Communications (IC3) pp. 290 - 294
Main Authors: Sivamuni, Kalaimagal, S, Pugalendhi G, Pandi, V. Samuthira, D, Shobana, J, Lakshmi Priya, Archana, V
Format: Conference Proceeding
Language:English
Published: IEEE 13.02.2025
Subjects:
Cloud computing
Cloud Resource Management
Cost Optimization
Costs
Dynamic scheduling
Elasticity in Cloud
Heuristic algorithms
Load Balancing
Machine learning algorithms
Optimization
Performance Monitoring
Prediction algorithms
Predictive analytics
Real-time systems
Resource Allocation Algorithms
Resource management
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Summary:The effective administration of dynamic workloads has emerged as a major obstacle for enterprises moving their operations to cloud computing. Intelligent allocation algorithms that guarantee optimal performance while minimizing operational expenses are necessary due to the fluctuation in demand for cloud resources. In order to achieve efficient and economical management of cloud resources, this study explores the use of machine learning (ML) methods to improve the distribution of dynamic workloads inside cloud infrastructure. In order to examine past workload data and forecast future resource needs, we present a thorough system that employs multiple ML algorithms, including supervised and unsupervised learning approaches. Our framework's goal is to automatically adjust to changing workload patterns and avoid under- or overprovisioning of resources by using data-driven insights to improve resource allocation in real-time. The platform relies on predictive analytics to foretell changes in workload, automatic resource scaling according to demand forecasts, and reinforcement learning to enhance allocation tactics in real-time. Extensive simulations and case studies are conducted across various cloud settings to test the efficiency of the proposed framework. In comparison to more conventional allocation strategies, the results show markedly higher rates of resource usage and lower costs. The flexibility of the framework to handle different types of workloads also highlights its wide range of possible uses in cloud computing. This research adds to the existing literature on cloud resource management and provides a solid method for improving the overall efficiency of cloud infrastructure and maximizing the distribution of workloads. Results highlight machine learning's revolutionary effect in propelling affordable cloud-based solutions for dynamic workload control.
DOI:10.1109/IC363308.2025.10957371