MosaiQ

Quandela’s flagship photonic
quantum computing platform

Quandela’s flagship photonic quantum computing platform. 

MOSAIQ opens the door to universal manipulation of pure, high-quality, on-demand photons for the prototyping, development, and implementation of a new generation of photonic quantum computing algorithms and protocols. 

This modular and upgradeable platform combines our eDelight sources with active demultiplexing from our DMX modules an integrated circuits photonic processor fully reconfigurable and operating at room temperature, top-performance nanowire detectors and fast electronics time-tagging modules. 

MOSAIQ is currently available to Quandela customers and scientific collaborators with a 12-mode universal reconfigurable quantum processor, enabling implementation of an extensive range of algorithms and protocols. 

Cloud access coming soon in 2022. 


PROMETHEUS

The first stand-alone single photon source

ALGORITHMS

Ground-breaking applications that fully exploit the informatic potential of photons 

Who are we

Quandela brings state-of-the-art technology and combines it with the strong dedication of its teams. We build unique solid-state sources of quantum light and create quantum algorithms to power a new generation of quantum computers, available on the cloud.

Join our team

Be part of an experience: Quandela is a growing company with large ambitions and a limitless potential. If like us you’re a passionate scientist or technologist, hungry for a challenge and with long term vision, come work with us and together, we’ll tackle on the quantum revolution!

Who trusts us

From industries and commercial partners working with us to develop new quantum computing use-cases, to funding agencies and investors supporting the scale-up of our technology; to the scientific community integrating Quandela’s components and adopting our cloud solutions to tackle multiple quantum applications.

Ask for solutions

Request access to our quantum computing platform and solutions by contacting our teams.