Photonic Quantum Computer
A bosonic quantum computer capable of supporting millions of Qumodes with no limitations on circuit depth. A fundamentally different approach from qubit-based quantum machines. Still
A bosonic quantum computer capable of supporting millions of Qumodes with no limitations on circuit depth. A fundamentally different approach from qubit-based quantum machines. Still
Approximates the dynamics of time-dependent temporal systems across robotics, aerospace, electrical, and financial domains.
Non-Boolean computational system based entirely on discrete value transitions. Reimagines logic gate fundamentals.
Hyper-computational architecture equivalent in power to quantum and gravity-based computers. Operates under BPP complexity with potential for ZPP refinement.
Unlocking the Power of Uncertainty with Deterministic Probabilistic Computing Built To Order Production Ready Probabilistic computing enables machines to reason under uncertainty by making informed
Solving Complex Problems at Scale with Advanced Constraint Programming Built To Order Production Ready Constraint programming provides a powerful framework to model and solve complex
Quantum-enabled CFD engine requiring only 60–100 qubits to simulate fluid dynamics over trillions of mesh nodes. Demonstrates proven quantum advantage.
Automatski has engineered solvers capable of performing linear algebra at the scale of billions of variables—precisely, efficiently, and in real time. This breakthrough removes a
Automatski’s simulations using a 1 Billion Qubit Quantum Computer show that gravity does not require quantization. Unlike the other fundamental forces, gravity emerges from geometric