Abstract

The convergence of quantum computing and machine learning is poised to revolutionize the field of artificial intelligence (AI). Quantum computing offers the potential to exponentially speed up computations, which can be leveraged to overcome the limitations of classical computing in training and inference for machine learning models. Quantum algorithms promise to enhance machine learning tasks, such as optimization, data processing, and pattern recognition, by solving problems that are computationally infeasible for classical machines. This paper explores the synergy between quantum computing and machine learning, focusing on the quantum-enhanced capabilities in AI. We review current research on quantum machine learning (QML) algorithms, discuss their theoretical underpinnings, and present promising applications in areas such as optimization, natural language processing, and drug discovery. Furthermore, we address the challenges and future directions in merging quantum computing with AI, highlighting the potential for accelerated AI solutions and transformative advancements in various industries.