KEEQuant Launches Commercial-Grade Chip-Scale QKD Technology

KEEQuant Launches Commercial-Grade Chip-Scale QKD Technology Photonic integration at the core of KEEQuant’s next-generation chip-scale QKD systems KEEQuant has announced the commercial launch of chip-scale Quantum Key Distribution (QKD) technology based on photonic integration. This transition replaces conventional discrete optical assemblies with Photonic Integrated Circuits (PICs), aimed at reducing system complexity and hardware costs for telecom and data center operators. The company is scheduled to begin initial hardware shipments to customers in late 2026, representing a transition from experimental pilot programs to standardized network infrastructure. The technical milestone consists of integrating essential optical building blocks—transmitter and receiver lasers, modulation units, and receiver detection optics—onto a unified photonic chip architecture. This design enables repeatable packaging and standardized manufacturability for large-scale deployments while ensuring compatibility with current fiber optic networks and existing encryption protocols. The move to a chip-scale format provides the engineering foundation for hybrid security models that combine QKD hardware with dedicated Key Management Systems (KMS). Development of this technology was funded through the SEQRET project under the European Union’s Digital Europe Programme within the EuroQCI framework. The initiative focuses on the industrialization and certification readiness of quantum-secure communications for European telecommunications infrastructure. KEEQuant’s systems are designed to support hybrid applications of QKD and Post-Quantum Cryptography (PQC) to protect sensitive data flows against cryptanalytic threats posed by future quantum computational capabilities. For further technical details on the PIC architecture and the SEQRET project, consult the official KEEQuant announcement here. March 16, 2026 Mohamed Abdel-Kareem2026-03-16T07:45:53-07:00 Leave A Comment Cancel replyComment Type in the text displayed above Δ This site uses Akismet to reduce spam. Learn how your comment data is processed.