AI and Quantum Computing: The Future of Data Analytics at Scale

Bhanu Raju Nida; Venkata Penumarthi

Authors

Bhanu Raju Nida Independent Researcher, Philadelphia, United States. Author
Venkata Penumarthi Independent Researcher, Philadelphia, United States. Author

Keywords:

Quantum Computing, Artificial Intelligence, Quantum Machine Learning, Big Data Analytics, Optimization, Hybrid Quantum-Classical Computing, Quantum Algorithms, AI Acceleration, Quantum Error Correction, Quantum Hardware Scalability

Abstract

The rapid growth of data driven applications has revealed the computational and scalability limitations of traditional computer systems in the delivery of AI and ML solutions. However, with artificial intelligence enhancing various sectors such as banking, healthcare and logistics, the need for improved and more efficient computing has led to the exploration of quantum computing as a possible solution. Quantum Computing (QC), that uses concepts such as superposition and entanglement of quantum bits or qubits is expected to improve AI based data analytics by reducing the time for training models, handling high dimensional problems and pattern recognition. This paper explores the integration of quantum computing with artificial intelligence, with the focus on Quantum Machine Learning (QML) and its effectiveness in enhancing AI data analysis. The potential of various quantum algorithms like Grover’s search, Quantum Approximate Optimization Algorithm (QAOA) and Variational Quantum Eigensolvers (VQE) in enhancing efficiency in optimization and AI model training is explored. The challenges of integrating quantum computing with the current AI frameworks are explored which include hardware issues, quantum error correction and scalability. Applications in practical scenarios such as banking, healthcare and supply chain management are also discussed, and quantum enhanced AI is found to bring revolutionary changes in these domains. Future directions in hybrid quantum classical computing, AI enhanced quantum algorithms and the gradual integration of quantum computing to the market are also discussed. The development of quantum technologies and its integration with AI is expected to redefine the ways of computing and provide better and faster solutions to data analytics problems.

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