Quantum-Inspired Machine Learning: A New Paradigm for Complex Data Processing

Yaareb T. Ahmed AL-Tamimi

doi:10.69923/xxveky33

Quantum-Inspired Machine Learning: A New Paradigm for Complex Data Processing

Authors

Yaareb T. Ahmed AL-Tamimi Department of Information Technology Engineering, Faculty of Technical and Engineering, The University of Qom, Iran Author https://orcid.org/0009-0001-6656-9756

DOI:

https://doi.org/10.69923/xxveky33

Keywords:

Quantum-Inspired, Learning, Quantum Computing, Complex Data Processing, Amplitude Encoding, Quantum Interference

Abstract

This study aims to evaluate the effectiveness of quantum-inspired machine learning (QIML) techniques when applied to high-dimensional data processing problems. Instead of relying on quantum hardware, QIML uses concepts such as amplitude encoding and tensor networks to improve the efficiency of traditional models. We compared the performance of QIML models with traditional machine learning models on three real-world datasets in the fields of finance, medical diagnosis, and natural language processing. The study used metrics of accuracy, training speed, and generalization properties for comparison. Our results show that hybrid QIML models achieve up to a 10% improvement in accuracy and a 40% improvement in training speed compared to traditional models. We also discuss current limitations in scalability and computational cost and suggest future research directions for developing QIML as an effective tool for processing complex data.

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Author Biography

Yaareb T. Ahmed AL-Tamimi, Department of Information Technology Engineering, Faculty of Technical and Engineering, The University of Qom, Iran

Yaareb Thayir Ahmed earned his BSc in Computer Science from the University of Diyala, Iraq (2016–2017), and later completed his MSc in Information Technology Engineering at Qom University, Iran. His academic journey blends rigorous Iraqi and Iranian foundations, focusing on software systems, data systems, and technological innovation. Yaareb is committed to advancing the field through research, development, and teaching, bridging theoretical progress with real-world solutions.

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Published

09/30/2025

Issue

Vol. 2 No. 3 (2025): Volume 2, Issue 3

Section

Articles

License

This work is licensed under a Creative Commons Attribution 4.0 International License.

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References

Marshall,G.C.and H.W.Ohm 1987 .Yield responses of 16 winter wheat cultivars to row spacing and seeding rate .Agronomy Journal .79:1027-1030

How to Cite

[1]

Y. T. A. AL-Tamimi, “Quantum-Inspired Machine Learning: A New Paradigm for Complex Data Processing”, IJApSc, vol. 2, no. 3, pp. 48–55, Sep. 2025, doi: 10.69923/xxveky33.