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Frequently Asked Questions.
Everything you need to know about QAISS, quantum security, and how we're building the future of cybersecurity.
INITIALIZING QAISS
Everything you need to know about QAISS, quantum security, and how we're building the future of cybersecurity.
QAISS (Quantum AI Immune Security System) is a self-evolving digital immune system that fuses quantum computing and artificial intelligence. Built on OriginQ's WuKong 72-qubit superconducting quantum computer, it provides next-generation cybersecurity through quantum-generated entropy, AI-driven threat detection, and autonomous self-healing protocols.
PQC refers to cryptographic algorithms designed to be secure against both classical and quantum computers. NIST finalized three standards in 2024: ML-KEM (FIPS 203) for key encapsulation, ML-DSA (FIPS 204) for digital signatures, and SLH-DSA (FIPS 205) as a hash-based fallback. QAISS implements all three.
HNDL is a strategy where adversaries intercept and store encrypted data today, betting that future quantum computers will allow them to decrypt it. This means sensitive data with long confidentiality requirements — financial records, healthcare data, state secrets — is already at risk even before large-scale quantum computers exist.
Q-Day — when quantum computers can break RSA-2048 — is estimated by most experts to occur sometime in the 2030s. NSA mandates full federal migration to PQC by 2035. However, due to the HNDL threat, the time to prepare has already passed for data that needs decades of confidentiality.
Yes. Our quantum demo circuits, architecture documentation, and research tools are fully open-source under the MIT license. We believe advancing quantum security benefits everyone. Professional and enterprise features are available through custom agreements.
No. QAISS accesses quantum resources via OriginQ's cloud API (Origin Pilot OS). Our quantum demo circuits run on pyqpanda3, which includes both simulator and real quantum hardware backends. Enterprise clients can optionally integrate with on-premise quantum hardware.
Most PQC solutions only replace algorithms. QAISS is a complete immune system with four layers: quantum-generated true entropy (not pseudo-random), AI neural threat detection that evolves with every attack, autonomous self-healing that patches zero-days in milliseconds, and real-time monitoring across all protected infrastructure.
Contact our team at contact@qaissecurity.com to schedule a discovery call. We'll assess your current security posture and design a quantum-safe migration roadmap tailored to your infrastructure.
QAISS is built on OriginQ's WuKong processor — a 72-qubit superconducting quantum chip accessible via the Origin Pilot operating system and cloud API. The WuKong chip provides the quantum randomness and circuit execution that powers QAISS's entropy core and threat analysis algorithms.
QAISS quantum circuits are built with pyqpanda3, OriginQ's Python SDK for quantum programming. The SDK supports both simulated and real quantum hardware backends, making it possible to develop and test locally before deploying to actual quantum infrastructure.
No. QAISS is a defensive system. With 72 qubits, the WuKong processor is orders of magnitude below what would be needed for cryptanalysis (estimated 20+ million qubits). QAISS uses quantum computing for defense — generating true random numbers, detecting anomalies, and creating unbreakable key exchange — not for attacking encryption.
Yes. The QAISS website, quantum demo circuits, and documentation are available on GitHub under the MIT license. We welcome contributions, research collaborations, and community feedback.
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