Photonic Quantum Computer
Scaling Quantum with Light—Millions of Qumodes, Unlimited Depth
- Built To Order
- Experimental
Automatski’s Photonic Quantum Computer harnesses bosonic quantum states to support millions of Qumodes, breaking free from the circuit depth limits of traditional qubit-based quantum machines. This fundamentally different architecture opens vast new possibilities in quantum computing—though still experimental, it’s pushing the frontier of what quantum systems can achieve.
Quantum Computing Reimagined in Photons
Unlike standard qubit systems constrained by coherence and gate counts, our photonic approach uses continuous-variable quantum modes (Qumodes) encoded in light. This enables ultra-large-scale, deep quantum circuits without degradation—ideal for complex simulations, optimization, and quantum information processing.
While still in the experimental stage, this platform represents a powerful direction toward scalable, high-dimensional quantum computing.
Key Features:
- Supports millions of Qumodes for massive quantum state space
- No fundamental limit on circuit depth—enabling deeper quantum algorithms
- Bosonic, continuous-variable quantum computing model
- Experimental platform advancing beyond qubit-based systems
- Ideal for quantum simulation, cryptography, and quantum machine learning
- Built to explore new quantum algorithm paradigms
- Pushing the boundaries of photonic quantum technology
Photonic quantum computing is poised to transform the landscape—and Automatski is at the forefront of this experimental revolution.
Author : Aditya Yadav