What We Do
Wove Photonic designs and fabricates photonic integrated circuits that replace conventional electronic components with light-based equivalents — dramatically increasing speed, reducing energy consumption, and unlocking new capabilities in computing and sensing.
Photonic Chips
Our proprietary photonic integrated circuits deliver terabit-scale bandwidth at a fraction of the power consumption of conventional electronics. Designed for hyperscale data centers and AI accelerators.
LiDAR & Sensing
Compact solid-state LiDAR modules powered by our photonic beam-steering technology. Enabling high-resolution 3D sensing for autonomous systems, robotics, and industrial inspection.
Quantum Photonics
Advancing quantum information processing using integrated photonic platforms. Our quantum photonic circuits are designed for scalable qubit manipulation and entanglement distribution.
Our Technology Advantage
At Wove Photonic, we have pioneered a novel silicon-nitride photonic platform that combines the best properties of silicon photonics with the low-loss characteristics of silicon nitride waveguides. This hybrid approach enables integration of active and passive components on a single chip, reducing system complexity and manufacturing cost while improving performance across a wide spectral range.
Our fabrication processes, developed in partnership with leading semiconductor foundries, achieve waveguide propagation losses below 0.1 dB/cm — a critical metric for long-haul optical signal integrity. Combined with our proprietary edge-coupling technology, this enables efficient coupling between on-chip photonic components and external fiber optic networks.
The result is a photonic platform capable of supporting bandwidths exceeding 400 Gbps per channel, with power consumption up to 10x lower than equivalent electronic implementations. These properties make our technology highly relevant for next-generation AI training clusters, optical interconnects in data centers, and coherent optical communication systems.
Latest from Our Blog
February 2025
We are thrilled to announce the close of our $7.5 million seed funding round, led by Deeptech Labs, to accelerate the commercialization of our photonic integrated circuits.
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November 2025
As conventional silicon transistors approach their physical limits, photonic integrated circuits are emerging as the next paradigm in high-performance computing.
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October 2025
Quantum photonics is driving a new era in information processing, leveraging the unique quantum properties of photons to enable computation and communication beyond classical limits.
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