Abstract

Physical computing benefits by an innovative, new framework developed by quantum dynamics. Quantum computation is based upon the principles that comprise quantum mechanics and include superposition, entanglement, and quantum tunnelling. Researchers study new approaches that go beyond traditional classical systems that are used as input for computation in quantum dynamics. This paper discusses the integration of quantum dynamics into physical computing. It considers whether it will lead to a new era of computational paradigms: optimizing algorithms, reducing energy, and making previously intractable problems solvable. The discussion will be structured in order to give an all-around overview of the theoretical underpinnings, practical applications, and many varied uses of the integration. The key areas of focus are quantum-enhanced artificial intelligence, secure cryptographic methods, advanced material simulations, and next-generation IoT systems. However, the challenges include scalability, error correction, and ethical considerations, along with strategies to overcome these hurdles. This research aims to contribute to the growing body of knowledge at the intersection of quantum computing and physical systems, offering insights for future advancements in this transformative field. IEEE standards are followed for referring to ensure rigor and accuracy with academic precision.

References

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