Photonic Quantum

Room-temperature quantum computing powered by photons. Ultra-fast gate operations, optical interference, and scalable photonic chips enable new possibilities for quantum networking and simulation.

Request Access View Specs

Technical Specifications

256Optical Qubits

1nsGate Speed

99%Gate Fidelity

Room TempOperation

Chip-ScaleIntegration

PhotonicsNative Networking

Architecture

Optical Interference Networks

Linear optical components and photon sources build scalable quantum circuits with minimal thermal overhead.

Fast operations enable high-throughput workloads and quantum communication use cases.

[VIDEO: Photonic chip and optical routing]

Integrated Photonic Chips

On-chip waveguides, beam splitters, and phase shifters provide stable and scalable quantum computation.

Modular photonic tiles enable rapid expansion in qubit count and circuit depth.

[IMG: Photonic circuit layout]

Use Cases

Quantum Networking

Native photonic interfaces enable secure quantum communication and entanglement distribution.

Simulation

Fast linear optics makes photonic systems ideal for boson sampling and quantum photonic simulations.

AI Acceleration

Ultra-fast gates support quantum-enhanced machine learning and kernel methods.

Secure Identity

Use photonic QKD for identity and transaction security in distributed systems.

Distributed Computing

Photonics provides natural interfaces for multi-node quantum clusters.

Research

Test new protocols for photonic error correction and fault tolerance.

Explore Photonic Quantum

Access a room-temperature quantum platform optimized for speed, networking, and scalable photonic architectures.

Request Access Download Datasheet