Published on: 2025-05-09

Intelligence Report: Quantum Readiness Gap DigiCert Study Finds Just 5% of Enterprises Have Quantum-Safe Encryption in Place – Vmblog.com

1. BLUF (Bottom Line Up Front)

The DigiCert study reveals a significant gap in enterprise preparedness for quantum computing threats, with only 5% of enterprises having implemented quantum-safe encryption. Despite recognizing the risks posed by quantum computing to current encryption standards, most organizations have not taken substantial steps towards quantum readiness. The report underscores the urgency for enterprises to transition to quantum-safe encryption to secure sensitive data and maintain trust in a future dominated by quantum computing.

2. Detailed Analysis

The following structured analytic techniques have been applied to ensure methodological consistency:

Adversarial Threat Simulation

Simulated potential actions of cyber adversaries exploiting quantum vulnerabilities, emphasizing the need for robust encryption strategies.

Indicators Development

Identified key indicators of quantum-related threats, enabling early detection and proactive defense measures.

Bayesian Scenario Modeling

Utilized probabilistic models to assess the likelihood of quantum-based cyberattacks and inform strategic planning.

3. Implications and Strategic Risks

The lack of quantum-safe encryption poses systemic vulnerabilities across multiple sectors, including finance, healthcare, and critical infrastructure. The potential for quantum computers to break current encryption standards could lead to widespread data breaches, undermining national security and economic stability. The transition to quantum-safe encryption is not only a cybersecurity imperative but also a strategic necessity to prevent cascading effects across interconnected systems.

4. Recommendations and Outlook

• Conduct comprehensive cryptographic asset inventories to identify vulnerabilities and prioritize upgrades to quantum-safe algorithms.
• Develop and test post-quantum cryptography (PQC) algorithms in non-production environments to ensure interoperability and resilience.
• Implement a phased approach to achieving crypto agility, enabling rapid adaptation to emerging threats.
• Scenario Projections:
  • Best Case: Enterprises achieve full quantum readiness, maintaining data integrity and trust.
  • Worst Case: Delays in adopting quantum-safe measures result in significant data breaches and loss of trust.
  • Most Likely: Gradual adoption of quantum-safe practices with intermittent vulnerabilities.

5. Key Individuals and Entities

Kevin Hilscher, Jim Goodman

6. Thematic Tags

quantum computing, cybersecurity, encryption, data protection, strategic planning