MATLAB-Based Lightweight Workload Prediction via Machine Learning Models in Distributed Systems

This paper presents a dynamic selector model for data workload prediction. A main function responsible for selecting the most accurate Machine Learning Algorithm (e.g., Linear Regression, Support Vector Regression, and Random Forest Regression) has been developed. The selection of the algorithm is b...

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Bibliographic Details
Published inIEEE Green Energy and Systems Conference pp. 1 - 6
Main Authors Al Jufout, Ghadeer, Zhang, Simon, Xu, Hailu, Al Jufout, Saleh
Format Conference Proceeding
LanguageEnglish
Published IEEE 04.11.2024
Subjects
Accuracy
Containers
Data models
docker container
machine learning
Machine learning algorithms
Mathematical models
MATLAB
parallel computing
Predictive models
Random forests
Runtime
Support vector machines
workload
Online AccessGet full text
ISSN2640-0138
DOI10.1109/GESS63533.2024.10784507

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Summary:This paper presents a dynamic selector model for data workload prediction. A main function responsible for selecting the most accurate Machine Learning Algorithm (e.g., Linear Regression, Support Vector Regression, and Random Forest Regression) has been developed. The selection of the algorithm is based on the runtime workload of the given data application ensuring an efficient and accurate development of the application. The selector model is parallelized and deployed in Docker containers which can speed up the runtime and improve the integrated performance of the system on a large scale. Evaluated results show significant improvements in scalability, versatility, and prediction accuracy by analyzing various data sets in different distributed environments.
ISSN:2640-0138
DOI:10.1109/GESS63533.2024.10784507