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Title: QUANTUM-INSPIRED MACHINE LEARNING ALGORITHMS FOR CLASSICAL COMPUTERS: EXPLORING QUANTUM PRINCIPLES TO IMPROVE CLASSICAL MACHINE LEARNING PERFORMANCE
Authors: Ali Ahmed Awan, Usman Saleem
Journal: Spectrum of Engineering Sciences
| Category | From | To |
|---|---|---|
| Y | 2024-10-01 | 2025-12-31 |
Publisher: Sociology Educational Nexus Research Institute
Country: Pakistan
Year: 2025
Volume: 3
Issue: 9
Language: en
Keywords: Computational EfficiencyQuantum-Inspired Machine LearningClassical ComputingQuantum PrinciplesSuperposition and EntanglementAmplitude AmplificationQuantum ParallelismAlgorithm OptimizationHybrid ComputingQuantum-Inspired Algorithms
Quantum computing has demonstrated substantial promise in revolutionizing computation which includes machine learning and exploiting of quantum principles like superposition and entanglement. This research explores the development of quantum-inspired machine learning algorithms that leverage quantum concepts, such as amplitude amplification and quantum parallelism, but are designed to run on classical hardware. We present an analysis of how effective and scalable machine learning models are inspired by quantum principles. We specifically look at methods like tensor networks, variational circuits that mimic quantum systems, and quantum-inspired optimization strategies. Our observations imply that these quantum-inspired models can significantly improve computing efficiency, optimization quality, and learning capabilities even though genuine quantum speedup is still unattainable for classical machines. This study further discusses potential applications and the future direction of hybrid quantum classical machine learning systems.
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