One physics.
Three layers.
The stack, end to end.
Most "photonic" companies bolt optics onto electronic architecture — a transceiver here, an interconnect there, an analog accelerator somewhere else. Each one inherits the constraints of the system it plugs into. We are building the stack as one architecture.
Linear pluggable optical transceivers.
DSP removed from the signal path. Laser integrated on-wafer. 800G, 1.6T, 3.2T at a fraction of the conventional power envelope.
Wafer-scale, all-photonic Petabit Switch.
Light enters as light, exits as light. Heater-free electro-optic tuning. A cognitive control plane that anticipates congestion before any packet queues.
Photonic AI Inference appliance.
A wafer of programmable optics. Computation performed by photons traveling through silicon, in parallel across many wavelengths at once.
Why end-to-end matters.
A transceiver that saves power inside an electronic switch still inherits the latency, the cabling, and the failure modes of that switch. An optical switch that hands packets to electronic compute still pays the conversion tax at the boundary. An optical compute substrate fed by electrical interconnect is starved before it begins.
The compounding gains arrive only when every layer speaks the same physics. That is why we build the stack as one architecture, not three products that happen to share a logo.
A note on what we publish.
We are conservative about public technical disclosure. The architecture is what we are selling, and the architecture is what we protect. Detailed engineering conversations happen with qualified partners under NDA — not on websites and not at conferences.
What you see in public is the outline of what we are building. What we are building is something else.