Building the Future of AI Networking
iPronics is a global team of scientists, engineers, and entrepreneurs united by one mission: to reimagine networking for the AI era.
Meet iPronicsReimagining Networks for the AI Era
AI is accelerating faster than traditional networks can keep up. At iPronics, we’ve built the first programmable optical switch designed for real-world deployment—ready to reconfigure in real time, cut energy waste, and unleash the full potential of GPUs.
Backed by roots in photonics research, international partners and leading investors, we’re scaling AI networks with precision, reliability, and purpose.
Backed by Leading Investors
Supported by EU Innovation Programs
INSPIRE
INSPIRE will make a programmable photonic processor available in form of TRL5/6 demonstrators for the first time.
More InformationPROMETHEUS
PROMETHEUS aims to leverage programmable photonics to develop neuromorphic architectures, such as largescale photonic spiking neural networks.
More InformationALLEGRO
ALLEGRO will develop an autonomous and HW-sliceable optical network that not only enables secure, energy-efficient services but also adds new capabilities.
More InformationLS-PHOTONICS
LS-PHOTONICS will develop large-scale programmable photonic processors, overcoming scalability hurdles, enabling multifunctionality, and applying to complex neuromorphic computing for broader photonics integration.
More InformationPICNET
The PICNET Project proposes an integrative approach based on quantum photonics and the integration of high-capacity, low-cost components into photonic integrated circuits, with the goal of strengthening information security and optimizing processing capacity across distributed systems.
More InformationEXCITE
EXCITE aims to develop the first commercially viable Field Programmable Photonic Gate Arrays (FPPGAs), a flexible and reprogrammable alternative to fixed-function photonic chips. The project will refine, scale, and demonstrate this platform for mass manufacturing, with an initial focus on high-performance optical switching for large data centers.
More InformationMIGRATE
MIGRATE aims to miniaturize and integrate programmable photonic processors, evolving iPronics’ lab-scale Plug & Play prototype into advanced validated components and subsystems. The project targets future adoption across three verticals: photonic processing, 5G/6G communications, and photonic computing, while pushing the boundaries of programmable photonics and sustainable PIC design.
More InformationAssociations & Partnerships
Supported by EU Innovation Programs
