Optical Networking Engine:
Reimagine AI Interconnects

Real-time, lossless, programmable silicon photonics that redefines data center networking.

Explore the Technology

Traditional Switches Can’t Keep Up with AI

Electrical packet switches (EPS) based networks struggle with bandwidth, latency, power and heat – hindering AI scale 

Electrical Packet Switch
  • Rigid topology​
  • Data transmitted as packets​
  • Routing based headers​
  • Requires E-O conversions (transceivers)​
  • Ports specific for a particular datarate​
  • Higher latency​
Optical Circuit Switch
  • Topology reconfiguration​
  • Direct light transmission
  • Reconfigurable by communication protocols
  • No transceiver​​ required
  • Transparent to datarate​
  • Low latency

Optical Networking Engine: Reimagine AI infrastructure

Transceivers
before Transceivers
Today

Reduce the number of transceivers required in datacenter optical links​.

Traditional
Switch Optical
Switch

Achieves 30x lower power consumption for high datarates than traditional switches.

Same size Higher radix

Better cost-to-capacity.

A Fully Integrated Photonic Platform:
Software, Optical, and Electronic Layers Working Together

SOFTWARE LAYER

  • Automatic function generation: proprietary algorithms for fast programming.
  • Performance optimization: system self-optimization using on-chip control feedback loops
  • Calibration: each tunable element is calibrated by software to ensure high performance and reliability

ELECTRONIC LAYER

  • Driving unit: fine-tuned control of all tunable elements
  • Monitoring unit: on-chip monitoring photodetector at each optical port

OPTICAL LAYER

  • Optical ports: fiber connections
  • Core: cutting-edge tunable photonic elements controlled by software
  • High-performance building blocks: additional on-chip functionalities

Core Technology: Programmable Photonic Fabric

Programmable Unit Cells (PUCs)

At the core of iPronics ONE lies a lattice of Programmable Unit Cells (PUCs). Advanced building blocks that steer light with exceptional precision. These cells can be reconfigured in microseconds, enabling the switch to adapt its topology on the fly.

Software‑Defined Control

The hardware is matched with intelligent software. iPronics ONE integrates seamlessly into the SDN layer, offering Python APIs, real-time telemetry, and automated orchestration. Networks can reconfigure dynamically, route around failures, and optimize throughput, all without rewiring or downtime.

Real-time photonic switching in AI Data Center applications

>99,999%
Processing Realization

Solid-state reliability, proven in workloads.

3× Lower
Power Use

Efficient optical switching that cuts energy waste.

25× Better
Cost‑to‑Capacity Ratio

Economics built for hyperscale adoption.

Beyond a Switch: A Programmable Photonics Platform

iPronics ONE is more than a product — it’s part of a broader photonics platform designed to flex, scale, and adapt across industries. With a reconfigurable silicon photonic mesh, real-time telemetry, and software-defined control, our technology can power AI data centers and the next generation of HPC, telecom, and research applications.

Explore the Applications

    We are disrupting data center management with a revolutionary optical networking engine
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