The Strategic Imperative of Quantum Readiness: A Comprehensive Review of Post-Quantum Cryptography

This paper provides a comprehensive review of quantum readiness as a critical, multidimensional framework for navigating the upcoming quantum computing era. It addresses the imminent threat posed by cryptographically relevant quantum computers (CRQCs), which will be capable of breaking the public-key cryptographic systems (like RSA and ECC) that currently secure digital communications and e-commerce. The concept of ”harvest now, decrypt later” (HNDL), where adversaries collect encrypted data today to decrypt it once quantum computers are available, highlights the urgency of this transition. The review is structured around three key dimensions: the theoretical foundations of post-quantum cryptography (PQC), global standardization efforts, and real-world sectoral implementations. It discusses how quantum algorithms, specifically Shor’s and Grover’s algorithms, can render classical cryptography obsolete, and it analyzes the NIST Post-Quantum Cryptography Standardization Project, which has selected the first-generation PQC standards. The paper also examines strategies from the European Union and other nations, noting the geopolitical implications of standards fragmentation. Furthermore, the review explores the practical adoption of PQC in critical sectors like finance, telecommunications, and defense, emphasizing the importance of crypto-agility—the ability to rapidly switch cryptographic algorithms—for future-proofing systems. It also highlights open challenges, including performance overheads, legacy system migration, and the shortage of skilled professionals. The paper concludes by outlining future directions for a secure transition, advocating for continuous research, global collaboration, and sustained investment to build a quantum-resilient digital ecosystem.