15/03/2026
BLACK3P TECHNOLOGIES 🇺🇲 🇬🇧
Specializing in the field of
CYBER SECURITY DEFENSE
Proposes the study of the transition to encryption resistant to PQC quantum attacks by 2035.
[email protected] 🇬🇧🇺🇲
The “transition to encryption resistant to PQC quantum attacks by 2035” means:
➡️ The global migration to cryptography systems capable of resisting quantum computers by 2035.
Here's the simple explanation.
1. Why this transition is necessary
Today, most security systems use algorithms like:
RSA
ECC (Elliptic Curve Cryptography)
Diffie-Hellman
These methods protect:
banks
military communications
the Internet (HTTPS)
emails
government systems
But future quantum computers will be able to break these algorithms very quickly thanks to massively parallel computing.
NCSC
2. The problem: “Q-Day”
Experts talk about Q-Day:
👉 the day a quantum computer will be powerful enough to break current encryption.
Possible consequences:
Decryption of diplomatic communications
Attacks on banks
Massive espionage
Compromise of critical infrastructure
Some data can even be stolen today and decrypted later (“harvest now, decrypt later”).
TechRadar.
3. The solution: PQC (Post-Quantum Cryptography)
Governments and organizations like the National Institute of Standards and Technology (NIST) are developing new algorithms resistant to quantum computers.
NIST
Examples of PQC algorithms:
ML-KEM (formerly Kyber)
ML-DSA (formerly Dilithium)
SLH-DSA
These algorithms are designed to remain secure even if a quantum computer exists.
4. Why the 2035 Deadline?
Cybersecurity agencies (Europe, USA, UK, NSA) have set a global timeline:
Recommended Timeline:
2026-2028
System audit and migration plan
2028-2031
Gradual replacement of critical systems
2035
All systems must use PQC.
NCSC +1
After 2035, vulnerable algorithms like RSA will be banned or obsolete in many systems.
AppViewX.
5. Most Affected Sectors
The transition concerns:
Defense
Banking
Satellites
Government Communications
Cloud and Internet
IoT and Critical Infrastructure.
✅ In Summary
The phrase means:
The world must replace current encryption systems with quantum-resistant cryptography before 2035 to prevent these machines from breaking global digital security.
copyright #2026