Dedalo is pitched as a logical-qubit-based photonic quantum system built to run alongside supercomputers and enterprise hardware, with QuiX targeting a next-generation machine in 2027.
The architecture uses measurement-based quantum computing to tackle photonic loss and probabilistic gates, combining photon generation, feed-forward control and a universal processor to form loss-tolerant logical qubits.
QuiX says the design is datacenter-friendly because it uses CMOS-compatible silicon-nitride photonic chips, operates at room temperature and works with existing telecom components and fiber-network wavelengths.
The launch extends a recent product push that included feed-forward and photonic assembly control units, following an April claim of below-threshold error mitigation in a photonic system.
Backed by about $17 million raised last year, QuiX is positioning Dedalo within Europe’s broader 2030 quantum ambitions and the industry’s shift from cloud-accessible NISQ machines toward fault-tolerant systems.
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QuiX Quantum’s Dedalo Architecture: The World’s First Logical-Qubit Photonic Quantum Computer Targeting 2027 Data Center Integration
Overview
In June 2026, QuiX Quantum unveiled the Dedalo architecture, marking a major step in quantum computing. Dedalo is the world’s first logical-qubit-based photonic quantum computer, designed for practical, fault-tolerant, and scalable operations. With plans for deployment by 2027, Dedalo targets integration into high-performance computing datacenters, showing QuiX Quantum’s commitment to real-world applications. The architecture’s core principles focus on overcoming current hardware limitations, using logical qubits and advanced error correction to ensure reliability. This ambitious timeline and innovative design position Dedalo as a key player in the future of quantum computing.