EvolutionQ Company & LuxQuanta demo quantum-Safe Network
LuxQuanta and evolutionQ present hybrid quantum attack protection at AWS Singapore Innovation Hub.
Company LuxQuanta and evolutionQ
LuxQuanta and evolutionQ demonstrated a quantum-safe network at the new AWS Innovation Hub in Singapore. This partnership shows a deployable system that protects against current and future quantum threats. The interactive exhibit shows how quantum-safe solutions work in real-world contexts.
Quantum Readiness Is Critical
Current geopolitical crises and worldwide technological races have accelerated quantum technology development. In ten years, powerful quantum computers could break encryption, according to experts. Enemies are also utilising “Harvest Now, Decrypt Later” strategies to capture and store encrypted content while waiting for decryption technology.
Businesses that manage sensitive, long-term data, such as government organisations, healthcare providers, and financial institutions, must begin quantum-safe transfer procedures now. A breach of today's vital data could affect an organization's strategic strategy, government intelligence, or general operation, making relocation time-sensitive. Fortunately, quantum-safe approaches like Quantum Key Distribution are commercially viable. QKD technology generates and distributes cryptographic keys that are immune to quantum mechanics assaults.
A Future-Proof Multilayer Method
The AWS Innovation Hub demonstration secures a financial institution's data transfer between its data centre and AWS Direct Connect facilities. A future-proof QKD security layer can be easily combined with well-known post-quantum encryption (PQC) protocols and key management systems in this multi-layered security scenario. On a graphical dashboard, the complete network shows how PQC encryption and QKD-generated keys secure data. QKD and PQC create a hybrid cryptography system that resists current and future quantum threats.
The defensive architecture has three layers:
Layer 1: Quantum Key Generation LuxQuanta's NOVA LQ system generates cryptographic keys. Quantum physics is used to create these keys, not maths. The technology securely develops and distributes symmetric cryptographic keys via optical fibre quantum channels. Quantum unpredictability in states provides keys. This security uses physics rather than computers, making encrypted data immune to quantum computer attacks.
QKD is distinguished by the fact that any attempt to eavesdrop breaks quantum states, making the intrusion visible. Thus, NOVA LQ data is immune to quantum computer assaults like “Harvest Now, Decrypt Later”.
Layer 2: Smart Key Management Key distribution across the network is orchestrated using EvolutionQ's Basejump platform. The control layer ensures consuming programs obtain and use QKD cryptographic keys correctly. Basejump retrieves, stores, and distributes LuxQuanta's QKD keys to maintain availability during connection performance fluctuations. Basejump allows the creation of Quantum Delivery Networks (QDNs), which imitate carrier-grade and enterprise designs by connecting several QKD lines through trustworthy nodes. The platform supports hybrid encryption using PQC algorithms and QKD-generated keys for multi-layered security.
Layer 3: Smoothness Top layer integration with key-using network devices. Well-known vendors make line encryptors, routers, and firewalls. These devices transparently consume quantum-secured keys to encrypt data across offices, data centres, and clouds, including AWS Direct Connect. LuxQuanta's cloud-based telemetry provides real-time connection status, security incidents, and key generation rates by linking to corporate monitoring tools.
Live Attack Simulation Shows Resilience
This interactive demonstration shows how the quantum-safe network responds to threats through a simulated attack. The network dashboard displays real-time data on apps seeking keys, key buffer levels, and quantum key creation.
The technology reacts exactly as anticipated when users imitate quantum channel eavesdropping:
QKD systems detect abrupt channel noise changes immediately. The KMS dashboard receives a notification from the NOVA LQ system to reject compromised key material due to high noise.
Resilience: NOVA LQ buffer keys managed by Basejump's KMS allow apps to run uninterrupted.
Reaction: Key production slows and compromised keys are automatically discarded to maintain link security.
Security personnel investigate and respond to telemetry data.
This approach ensures entire auditability and continued protection along the cryptographic chain, even during an active attack, while delivering a simple and effective user experience.
In conclusion, planning is crucial
A more comprehensive, unified quantum-safe network solution could benefit enterprises, as seen in this example. The LuxQuanta–evolutionQ relationship in the executive-grade AWS Innovation Hub accelerates AI and digital transformation in Asia-Pacific by establishing the ecosystem's quantum-safe security pillar. This builds on LuxQuanta devices' scaled potential to secure AWS Direct Connect facilities.
Organisations must prioritise preparation. This requires knowing the necessary information and understanding the quantum-safe migration schedule and technical requirements. Organisations must work towards or move to quantum-safe systems using the appropriate risk mitigation method for their situation. The demonstration shows that quantum-safe networking technology is ready for deployment and can be easily integrated with current infrastructure and important cloud platforms, paving the way for a full quantum-readiness plan.
