A comparative analysis of virtual machines and containers using queuing models
Downloads
Published
DOI:
https://doi.org/10.58414/SCIENTIFICTEMPER.2024.15.spl.01Keywords:
Docker container, Virtual machines, Queuing model, Cloud computing.Dimensions Badge
Issue
Section
License
Copyright (c) 2024 The Scientific Temper
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
Virtual machines (VMs) and containers are two prevalent technologies in cloud computing, each offering distinct advantages depending on the use case. VMs emulate entire operating systems, including kernels, while containers share the host OS kernel, making them lightweight and resource-efficient. This paper presents a novel method for comparing the performance of VMs and containers using queuing models. The proposed method not only provides a more accurate and flexible comparison but also significantly reduces the time required to calculate and perform performance metrics compared to traditional empirical benchmarking and simulation-based approaches. Through this comparison, the paper highlights the conditions under which containers outperform VMs, particularly in modern, cloud-native environments.Abstract
How to Cite
Downloads
Similar Articles
- Desai Vishesh, Ritesh Patel, Assessing the influence of tax refunds and incentives on personal tax Reporting: A qualitative perspective , The Scientific Temper: Vol. 16 No. 03 (2025): The Scientific Temper
- Rustam Gulomov, Khilolakhon Rakhimova, Avazbek Batoshov, Doniyor Komilov, Bioclimatic modeling of the species Phlomoides canescens (Lamiaceae) , The Scientific Temper: Vol. 14 No. 04 (2023): The Scientific Temper
- T. R. Raajpandiyan, Syed T. Hussainy, U. Rizwan, A bivariate replacement policy (T, N) under partial product process , The Scientific Temper: Vol. 15 No. 02 (2024): The Scientific Temper
- Ayesha Shakith, L. Arockiam, EMSMOTE: Ensemble multiclass synthetic minority oversampling technique to improve accuracy of multilingual sentiment analysis on imbalance data , The Scientific Temper: Vol. 15 No. 04 (2024): The Scientific Temper
- T. Malathi, T. Dheepak, Enhanced regression method for weather forecasting , The Scientific Temper: Vol. 15 No. spl-1 (2024): The Scientific Temper
- Modenisha U, W. Ritha, Sasitharan Nagapan, Analysing the cost structure of construction sectors considering carbon emission factors , The Scientific Temper: Vol. 16 No. 08 (2025): The Scientific Temper
- Hardik Talsania, Kirit Modi, Attention-Enhanced Multi-Modal Machine Learning for Cardiovascular Disease Diagnosis , The Scientific Temper: Vol. 17 No. 01 (2026): The Scientific Temper
- Swetha Rajkumar, Subasree Palanisamy, Online detection and diagnosis of sensor faults for a non-linear system , The Scientific Temper: Vol. 14 No. 01 (2023): The Scientific Temper
- M. Rajalakshmi, V. Sulochana, Enhancing deep learning model performance in air quality classification through probabilistic hyperparameter tuning with tree-structured Parzen estimators , The Scientific Temper: Vol. 14 No. 04 (2023): The Scientific Temper
- R. Kalaiselvi, P. Meenakshi Sundaram, Unified framework for sybil attack detection in mobile ad hoc networks using machine learning approach , The Scientific Temper: Vol. 16 No. 02 (2025): The Scientific Temper
<< < 15 16 17 18 19 20 21 22 23 24 > >>
You may also start an advanced similarity search for this article.
Most read articles by the same author(s)
- A. Anand, A. Nisha Jebaseeli, AI-driven real-time performance optimization and comparison of virtual machines and containers in cloud environments , The Scientific Temper: Vol. 15 No. spl-1 (2024): The Scientific Temper
- S. Bhuvaneswari, A. Nisha Jebaseeli, Multi-model telecom churn prediction , The Scientific Temper: Vol. 15 No. 04 (2024): The Scientific Temper
