To that finish, Palo Alto’s Quantum-Protected Safety answer provides superior cryptographic danger evaluation and prioritization, correlating encryption energy with enterprise criticality and information lifecycle. This identifies instant exposures (“harvest now, decrypt later” dangers) and high-value belongings requiring precedence migration, offering security groups with a transparent, impact-based roadmap.
One other key characteristic is its remediation method, which guides the transition in a number of levels. The answer helps modernize infrastructures to attain a “quantum prepared” state, activate post-quantum or hybrid (quantum-safe) algorithms, and, within the case of legacy techniques or gadgets that can not be upgraded, apply digital patching by encryption translation. This mechanism permits weak site visitors to be re-encrypted in real-time with safe quantum requirements, with out modifying current purposes or code.
Quantum-Protected Safety additionally incorporates a strong governance and ongoing compliance framework. It automates crypto hygiene administration, maintains a dynamic cryptographic stock (CBOM), and detects deviations or the usage of weak ciphers in real-time. Moreover, it facilitates regulatory compliance by automated reporting and audits aligned with international requirements and laws corresponding to NIST, FIPS 140-3, and DORA.
