CyanoRisk Capability
Prepare Your Enterprise for the Post-Quantum Era
CyanoRisk Quantum Readiness identifies where quantum-vulnerable cryptography exists across the enterprise and helps organizations plan, prioritize, and track migration to post-quantum standards.
Data encrypted today can be captured today and decrypted once quantum computers mature — the harvest-now-decrypt-later problem. CyanoRisk finds every quantum-vulnerable algorithm and helps you migrate to NIST post-quantum cryptography in priority order.
Quantum Risk Graph
One Vulnerable Algorithm, a Chain of Exposure
A single RSA certificate can protect the data an adversary is capturing today to decrypt tomorrow. CyanoRisk maps every quantum-vulnerable algorithm to the data and business services it exposes — and its post-quantum target.
Product Overview
From Cryptographic Debt to Quantum Readiness
The Risk Fabric
Quantum Risk Intelligence Built Into the Digital Risk Fabric
CyanoRisk connects quantum-vulnerable algorithms with the certificates, applications, APIs, databases, and business services that depend on them.
An enterprise becomes quantum-ready when every vulnerable algorithm is discovered, prioritized, and migrated.
The Problem
Why Quantum Risk Must Be Managed Today
Key Capabilities
Everything Needed to Reach Quantum Readiness
Sixteen capabilities, one quantum-risk graph: every vulnerable algorithm discovered, prioritized, migrated, and validated.
How It Works
Seven Steps From Quantum Exposure to Post-Quantum Trust
Visual Intelligence
The Quantum Migration Planner
From today’s vulnerable algorithm to a validated post-quantum one — prioritized by harvest-now-decrypt-later exposure and business criticality.
Attack vs Defense
How Harvest-Now-Decrypt-Later Works — and How CyanoRisk Stops It
The most patient attack in cybersecurity needs no exploit today — just storage. Here is the chain, and how CyanoRisk gets ahead of it.
How the attack unfolds
- An adversary captures TLS-encrypted traffic protecting cardholder and health data today.
- The data is stored, unreadable for now, because it is encrypted with RSA-2048.
- The organization keeps using RSA and ECC, unaware of which data flows are exposed.
- A cryptographically relevant quantum computer matures and Shor’s algorithm breaks RSA and ECC.
- The years of captured traffic are decrypted at once — a breach of data that was never re-encrypted.
How CyanoRisk protects
- CyanoRisk discovers every RSA and ECC algorithm and the data flows they protect today.
- It scores harvest-now-decrypt-later exposure by data sensitivity and retention, not just algorithm.
- The most exposed, most critical assets are prioritized for post-quantum migration first.
- Vulnerable algorithms are migrated to ML-KEM and ML-DSA under the NIST FIPS 203/204 standards, and piloted.
- Migration is validated and tracked, and the executive dashboard shows quantum readiness climbing.
Business Outcomes
What Changes When You Can See Your Quantum Debt
Built for the Whole Room
One Quantum-Risk Graph, a Screen for Every Role
“Everyone sees the same quantum-risk graph. Nobody sees the same screen.”
Related CyanoRisk Capabilities
Quantum Readiness Compounds With the Rest of the Fabric
Start Your Post-Quantum Migration With Evidence, Not Guesswork
CyanoRisk helps organizations discover quantum-vulnerable cryptography, score harvest-now-decrypt-later exposure, and plan and track migration to NIST post-quantum standards across the enterprise.