Quantum Technology enables an exponential scale of computational power that can be used for solving complex problems

Quantum computing capability has put classical cryptography in jeopardy as the classical security is based mathematical and computational complexity.

The critical data can be stolen today, when it is in transit, stored and decrypted later when quantum computing is available to break the encryption algorithm.

The intellectual property owned by industries, like pharmaceutical, or state secrets need to be protected for long period of time.

Secure symmetric keys can be generated for data encryption using Quantum properties like Heisenberg’s uncertainty principle, no cloning theorem and entanglement.

Quantum encryptions based on Quantum entanglement provide unconditional security

RT_MDI_QKD implements quantum entanglement and reverse entanglement principles.

This MDI (Measurement Device Independent) based QKD Supports point to point, hub and spoke network configurations.

Quantum security provided by PQC is uncertain, unpredictable and vulnerable as it is based on mathematical certainty in algorithms. The uncertainty of Quantum entanglement makes security provided by RT_MDI_QKD, a certainty.

RT_MDI_QKD provides highest level of security as it is based on entanglement compared to vulnerable Prepare and Measure protocols implemented by many vendors today