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The imminent emergence of quantum computers poses unprecedented challenges to the current cryptographic standards that secure vital digital communications and data worldwide. This paper addresses the vulnerabilities of existing cryptographic systems susceptible to quantum-based attacks and emphasizes a dedicated transition plan to post-quantum cryptography (PQC). We first examine the current state of cryptographic practices, highlight the quantum threat, and present the framework and need for PQC. In addition, a comprehensive strategy is presented that encompasses the identification, protection, detection, response, and recovery phases and integrates PQC into existing security infrastructures, specifically the Cybersecurity Framework Version 2.0 of the National Institute of Standards and Technology (NIST). Methods and technologies discussed include the development of robust PQC algorithms, tools for their large-scale implementation, and hybrid cryptographic systems that combine traditional and quantum-resistant techniques. Practical implementations on various hardware and software platforms are also presented in case studies that provide real-world insight into the challenges and innovations in using PQC. We conclude with a discussion of hybrid approaches, regulatory considerations, and recommendations derived from early adopters to guide future efforts to create a quantum-resilient digital landscape.
Aydeger et al. (Wed,) studied this question.
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