The Post-Quantum Cryptography Cloud Platform is designed to provide a comprehensive and scalable cryptographic infrastructure for the quantum era.
Our platform offers seamless integration with more than 50 post-quantum cryptographic libraries, enabling organizations to deploy secure encryption solutions with minimal complexity.
In addition, the platform includes an enterprise-grade key management system that delivers secure, efficient, and automated cryptographic key lifecycle management, ensuring data confidentiality and integrity across enterprise environments.
The platform also integrates advanced privacy-preserving technologies such as federated learning, secure multi-party computation, and distributed optimization, enabling privacy-enhanced AI models and anomaly detection capabilities.
Together, these technologies form a unified post-quantum security framework designed to address the rapidly evolving challenges of modern digital infrastructure.
Our Advantages
• Stable and Efficient Operation
A unified cryptographic management framework enables fast, reliable, and centralized encryption operations.
• AI-Enhanced Cryptography
The platform integrates artificial intelligence capabilities to enhance cryptographic systems and seamlessly support modern AI applications.
• Hardware Acceleration Support
Supports hardware-accelerated encryption infrastructure including secure data centers and dedicated quantum-key distribution hardware.
Post-Quantum Key API
The Post-Quantum Key API is an open-source cryptographic toolkit that provides a simplified interface for implementing advanced encryption operations.
It enables developers to easily build secure communication systems by combining different protocols and cryptographic implementations.
The API supports multiple programming languages including C++, Rust, Python, and Go, and integrates with widely used cryptographic libraries such as OpenSSL, BoringSSL, and libOQS.
How It Works :
Typical workflow using the Post-Quantum Key API includes:
• Select the required protocol (e.g., TLS 1.3)
• Choose an implementation method such as integrating OpenSSL with libOQS
• Combine the components into a unified post-quantum cryptographic object to establish a secure communication channel
Developers can flexibly configure runtime options without recompiling code, enabling fast deployment across different environments.