Articles
Research & technical perspectives
Architecture analysis, threat modeling, and technical deep-dives on post-quantum security, autonomous systems, blockchain infrastructure, and sovereign deployment from the CUI Labs engineering team.
Featured
The Quantum Shift: Why CUI Labs Built the First Full-Stack Quantum-Native Technology Platform
A comprehensive briefing on why quantum computing forces a complete rethinking of security, operating systems, and infrastructure—and how CUI Labs is building the first quantum-native technology stack.
~12 min read
The Global Cryptographic Reset: Why Every Nation and Enterprise Must Transition to Post-Quantum Security Now
Quantum computers will break RSA, ECC, and Diffie-Hellman within the next decade. Governments and enterprises must transition to post-quantum cryptography immediately to protect data, sovereignty, and infrastructure.
~14 min read
The End of Classical Infrastructure: Why the Next Decade Requires a Quantum-Native Technology Stack
Classical infrastructure was built on breakable cryptography, legacy operating systems, and fragmented networks. The next decade requires a quantum-native technology stack spanning security, OS, networking, and vertical solutions.
~15 min read
Post-Quantum AI: Securing the Next Generation of Intelligence with QNSP and AIOS
Why AI systems built on classical infrastructure are vulnerable to quantum-era threats, and how QNSP and AIOS provide a quantum-native security and operating stack for AI workloads and agents.
~13 min read
All Articles
Sovereign Infrastructure in the Quantum Era: Why Nations Must Control Their Own Quantum-Native Stack
Digital sovereignty requires control over cryptography, operating systems, and networks. In the quantum era, nations must deploy quantum-native infrastructure to maintain independence and security.
Quantum Networking: Why Classical Networks Cannot Secure the Next Decade
Classical networks rely on breakable encryption and centralized trust models. Quantum networking provides provably secure communication, distributed trust, and quantum-native protocols.
AIOS: The First Agent-Native Operating System for Autonomous Intelligence
Classical operating systems were designed for human-driven workflows. AIOS is the first agent-native OS, enabling autonomous AI systems to operate securely, efficiently, and at scale.
The Quantum-Safe Migration: A Practical Guide for Enterprises
A step-by-step guide for enterprises to assess quantum risk, plan migration to post-quantum cryptography, and deploy quantum-native infrastructure without disrupting operations.
The Quantum Threat Timeline: When Will RSA and ECC Break?
A technical analysis of quantum computing progress, cryptographic vulnerabilities, and realistic timelines for when RSA, ECC, and Diffie-Hellman will be broken by quantum computers.
Post-Quantum Cryptography Standards: NIST, CNSA 2.0, and Global Compliance
An overview of NIST's post-quantum cryptography standards, CNSA 2.0 requirements, and global regulatory frameworks for quantum-safe cryptography.
The Quantum-Native Cloud: Why Hyperscalers Cannot Secure the Quantum Era
Classical cloud providers rely on breakable cryptography and centralized trust models. The quantum-native cloud requires distributed trust, post-quantum encryption, and sovereign control.
Securing Autonomous Systems: Why AI Agents Need Quantum-Native Infrastructure
Autonomous AI systems require provably secure communication, verifiable execution, and quantum-safe cryptography. AIOS and QNSP provide the foundation for secure autonomous intelligence.
The Quantum Era Business Model: How CUI Labs Monetizes Quantum-Native Infrastructure
An analysis of CUI Labs' business model, revenue streams, and go-to-market strategy for quantum-native security, operating systems, and vertical solutions.