Proceedings of the XXth Conference of Open Innovations Association FRUCT (Nov 2024)
Progress and Challenges in Quantum Computing Algorithms for NP-Hard Problems
Abstract
Traditional computers have had difficulties in making advancements in areas such as optimisation, cryptography, and network design because they are not capable of effectively solving computationally complex problems, which are referred to as NP-hard problems. Quantum computing utilises the principles of quantum physics to solve problems with exceptional efficiency, making it a groundbreaking paradigm. The study explores the capabilities of quantum algorithms in addressing NP-hard issues and evaluates their strengths and constraints. We demonstrate how breakthroughs such as Grover's and Shor's algorithms may provide exponential and polynomial enhancements in certain situations. We do a comprehensive analysis of the current state of quantum algorithms and evaluate their strengths and weaknesses. We analyse recent progress in hardware innovation and error correction techniques to evaluate their potential in overcoming the obstacles of restricted scalability and high error rates that now impede their use. The article highlights the vast capabilities of quantum computing in tackling NP-hard problems. Notable obstacles that still exist include restrictions imposed by hardware, the lack of a universally accepted programming language, and the need for reliable error correction methods. Ultimately, it is more important to fully comprehend the capabilities and constraints of quantum computing in addressing NP-hard issues, especially as its actual use becomes more imminent. This study is a thorough manual that gives a detailed examination of state-of-the-art algorithms and explores the challenges involved in achieving a new age of computing capacity. Once these problems are addressed and there is a strong impetus for further exploration, quantum computing will fundamentally transform our approach to computationally intractable challenges in the future.
