This joint laboratory is a cutting-edge industry-university-research cooperation platform jointly established by Xi’an Jiaotong-Liverpool University (XJTLU), LK Quantum, and Zaizao Cloud. The laboratory aims to address the threats posed by the rise of quantum computing to traditional cybersecurity, and is dedicated to the deep integration of cutting-edge “Post-Quantum Cryptography (PQC)” with “AI computing infrastructure.”
Co-founders and Complementary Strengths
The joint laboratory brings together top-tier resources from three key areas: academic research, the cryptography industry, and cloud computing.
PQC-X (Post-Quantum Migration Interdisciplinary Laboratory (PQC-X), Xi’an Jiaotong-Liverpool University) — The Core Academic Engine: XJTLU boasts a world-class research team in post-quantum cryptography, particularly in areas such as lattice-based cryptography and the attack and defense of international NIST standard algorithms. PQC-X provides the joint laboratory with a solid underlying mathematical theory, cryptographic algorithm breakthroughs, and academic support.
LK Quantum (Suzhou Langkong Post-Quantum Technology Co., Ltd.) — The Industrialization Platform: As an innovative domestic enterprise focused on the commercialization of post-quantum cryptography, LK Quantum possesses the capability to transform PQC theories into practical application components (such as quantum-resistant encryption shields and hybrid encryption architectures), driving the implementation of cutting-edge cryptographic technologies in commercial scenarios.
ZZC (Zaizao Cloud Al (Shandong) Co., Ltd.) — The Computing Power and Cloud Service Provider: Representing the provider of cloud and AI computing infrastructure, Zaizao Cloud serves as the practical hosting platform for the deployment of quantum-resistant security technologies. It provides the foundational cloud environment for massive AI model training and data computation.
Core Positioning and Research Directions
With the explosive growth of large AI models, massive amounts of high-value data and core algorithm models are circulating within computing networks. However, future quantum computers will have the capability to easily crack existing public-key encryption systems (posing a “harvest now, decrypt later” threat). Therefore, the laboratory’s core research directions primarily include:
Building a Quantum-Resistant AI Computing Foundation: Deploying next-generation post-quantum cryptographic algorithms across all stages of computing resource scheduling, data transmission, and cloud storage to ensure the absolute security of AI computing networks in the future quantum era.
Cryptographic Agility and Smooth Migration: Researching how to seamlessly and transparently transition to a post-quantum cryptographic system on existing cloud computing architectures and AI platforms, thereby ensuring business continuity for AI applications in highly confidential sectors such as finance and government.
Data Privacy and Secure Computing: Integrating quantum-resistant cryptography to ensure that data privacy is strictly protected and not compromised during large-scale distributed AI training and inference.
Industry Significance
The establishment of this joint laboratory marks a forward-looking technological layout. It not only connects the entire chain from “underlying mathematical cryptographic theories” to “large-scale AI computing applications,” but also proactively builds an indestructible “quantum-resistant security defense line” for the future digital economy, intelligent computing centers, and the data assets of highly sensitive industries.
Overview of the Joint Laboratory
This joint laboratory is a cutting-edge industry-university-research cooperation platform jointly established by Xi’an Jiaotong-Liverpool University (XJTLU), LK Quantum, and Zaizao Cloud. The laboratory aims to address the threats posed by the rise of quantum computing to traditional cybersecurity, and is dedicated to the deep integration of cutting-edge “Post-Quantum Cryptography (PQC)” with “AI computing infrastructure.”
Co-founders and Complementary Strengths
The joint laboratory brings together top-tier resources from three key areas: academic research, the cryptography industry, and cloud computing.
PQC-X (Post-Quantum Migration Interdisciplinary Laboratory (PQC-X), Xi’an Jiaotong-Liverpool University) — The Core Academic Engine: XJTLU boasts a world-class research team in post-quantum cryptography, particularly in areas such as lattice-based cryptography and the attack and defense of international NIST standard algorithms. PQC-X provides the joint laboratory with a solid underlying mathematical theory, cryptographic algorithm breakthroughs, and academic support.
LK Quantum (Suzhou Langkong Post-Quantum Technology Co., Ltd.) — The Industrialization Platform: As an innovative domestic enterprise focused on the commercialization of post-quantum cryptography, LK Quantum possesses the capability to transform PQC theories into practical application components (such as quantum-resistant encryption shields and hybrid encryption architectures), driving the implementation of cutting-edge cryptographic technologies in commercial scenarios.
ZZC (Zaizao Cloud Al (Shandong) Co., Ltd.) — The Computing Power and Cloud Service Provider: Representing the provider of cloud and AI computing infrastructure, Zaizao Cloud serves as the practical hosting platform for the deployment of quantum-resistant security technologies. It provides the foundational cloud environment for massive AI model training and data computation.
Core Positioning and Research Directions
With the explosive growth of large AI models, massive amounts of high-value data and core algorithm models are circulating within computing networks. However, future quantum computers will have the capability to easily crack existing public-key encryption systems (posing a “harvest now, decrypt later” threat). Therefore, the laboratory’s core research directions primarily include:
Building a Quantum-Resistant AI Computing Foundation: Deploying next-generation post-quantum cryptographic algorithms across all stages of computing resource scheduling, data transmission, and cloud storage to ensure the absolute security of AI computing networks in the future quantum era.
Cryptographic Agility and Smooth Migration: Researching how to seamlessly and transparently transition to a post-quantum cryptographic system on existing cloud computing architectures and AI platforms, thereby ensuring business continuity for AI applications in highly confidential sectors such as finance and government.
Data Privacy and Secure Computing: Integrating quantum-resistant cryptography to ensure that data privacy is strictly protected and not compromised during large-scale distributed AI training and inference.
Industry Significance
The establishment of this joint laboratory marks a forward-looking technological layout. It not only connects the entire chain from “underlying mathematical cryptographic theories” to “large-scale AI computing applications,” but also proactively builds an indestructible “quantum-resistant security defense line” for the future digital economy, intelligent computing centers, and the data assets of highly sensitive industries.