Our fundamental technologies

Our rack-mountable photonic modules combine single-photon sources with optical switching and low-loss photonic processing.

What’s inside

What’s Inside

Built for scale. High speed, fibre connected, telecom compatible modules

Connecting photon sources with low loss optical switching and processing using standard telecom fibre. Bringing quantum photonics out of the lab and into real-world infrastructure.

1

Create

Telecom Photon Sources

Proprietary quantum dot technology

2

Route

Optical Switching

High-speed and low-loss

3

Compute

Quantum Processing Units

Silicon integrated photonic processors

4

Measure

Single Photon Detectors

Superconducting detectors

Why It Matters

Making quantum computing scalable and reliable

Highest performance and lowest cost

10000x fewer components and 1000x faster runtimes.

Telecom 
compatibility

Telecom C-band for lowest loss, leveraging volume manufacturing.

Simplified
environments

No extreme cooling or vacuum systems.

Scales through fibre-connected modules

Built using commercial semiconductor processes.

Our next steps

We're advancing toward deeper on-chip integration—bringing sources, switches, and detectors together to support error-corrected quantum systems and scalable, module-to-module architectures.

See what we built