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Yuswardi Yuswardi
Universitas Jabal Ghafur, Aceh, Indonesia
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Journal : International Journal Software Engineering and Computer Science (IJSECS)

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Hybrid Quantum-Classical Optimization for Energy-Efficient Large Language Models Loso Judijanto; Yuswardi Yuswardi; Fitriyani Fitriyani
International Journal Software Engineering and Computer Science (IJSECS) Vol. 5 No. 2 (2025): AUGUST 2025
Publisher : Lembaga Komunitas Informasi Teknologi Aceh (KITA)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35870/ijsecs.v5i2.5099

Abstract

The rapid evolution of Large Language Models (LLMs) has transformed natural language processing, enabling sophisticated applications across various sectors. However, the substantial computational demands associated with training and deploying LLMs result in significant energy consumption and carbon emissions. This study introduces an optimized hybrid quantum-classical framework that integrates variational quantum algorithms (VQAs) with accelerated classical learning techniques. By harnessing quantum computing for complex non-linear optimization and employing prompt learning to minimize full model retraining, the proposed approach enhances both computational efficiency and sustainability. Simulation outcomes indicate that the hybrid method can reduce energy usage by up to 30% and shorten computation time by 25% relative to conventional classical approaches, without diminishing model accuracy. These improvements are substantiated through quantitative analysis and visualized energy metrics. The adaptability of the framework supports its application in diverse areas, including sustainable energy management, supply chain optimization, and environmentally conscious transportation systems. Nevertheless, the broader implementation of such hybrid solutions remains constrained by current quantum hardware capabilities and integration challenges with classical infrastructure. The findings underscore the potential of hybrid quantum-classical optimization as a pathway toward sustainable AI development. Future research should prioritize advancements in quantum hardware reliability and interdisciplinary collaboration to accelerate practical adoption, thereby supporting global efforts in energy efficiency and environmental responsibility.
Co-Authors Adhar Adhar Arrayyani Arrayyani Balia Balia Basri, Basri Feriyana Feriyana Fitriyani Hudia Hudia Husaini Husaini Husaini Husaini Husaini Husaini Junaidi Salat Khairul Munadi Loso Judijanto Maryanti Maryanti Mastur Reza Maulina Wati Maya Sari Misna Zuhra Muhajir Ab Muhammad Abrar Muhammad Al Kautsar Muhammad Dede Arman Muhammad Ridha Mursyidin Mursyidin Nurul Ulfa Ramzi Adriman Rauzatul Jannah Sayed Achmady Sayed Achmady Setiawati, Cut lilis Yeyen Novita Sari Zikrul Khalid