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Quantum computing stands as a promising avenue for advancing the capabilities of computers within the realm of computer science.By harnessing the power of qubits, quantum computers diverge from traditional computing models based on bits, enabling the storage of vast amounts of information through the principle of superposition.While quantum computing was once relegated to the realm of theory, recent developments, such as IBM's successful creation of a functional quantum computer, have propelled it into the realm of practical exploration.This newfound capability has ignited interest among scientists, who are actively probing the potential of quantum algorithms like Shor's prime factorization algorithm.Notably, Shor's algorithm possesses the remarkable ability to decipher modern RSA encryption, underscoring the urgent need for the development of alternative encryption methods.Quantum computing thus holds the unique potential to revolutionize the field of computer science.However, grasping the full scope of its impact necessitates careful consideration and dialogue to ensure responsible implementation strategies.
Tiwari et al. (Tue,) studied this question.