Quantumresistant

Quantumresistant refers to cryptographic algorithms, protocols, or systems designed to remain secure even in the presence of quantum computers. The term is most often applied to public-key cryptography, where quantum algorithms such as Shor’s algorithm can break widely used schemes like RSA and elliptic-curve cryptography. In contrast, symmetric-key cryptography faces a different consideration: Grover’s algorithm can accelerate brute-force attacks, roughly halving effective key lengths, which motivates using larger keys to maintain security margins.

Quantum resistance is not proven by any algorithm; it is a security assumption based on current knowledge

Post-quantum cryptography encompasses several families believed to be resistant to known quantum attacks, including lattice-based, code-based,

Standards organizations, notably NIST, have undertaken formal processes to evaluate and standardize quantum-resistant algorithms for public-key