AI systems leveraging quantum principles like tensor networks, sampling, and dequantization on classical hardware. Enables smaller models, faster inference, and improved generalization—today.

A Quantum Computer designed to introduce faults within controlled limits—pushing the machine beyond standard Turing limits into the Super Turing class. Unlike generic NISQ systems,

A logically reversible computer designed for ultra-efficient computation, especially in cryptography and inverse problems. It does not yet achieve full physical reversibility but delivers profound

Classical circuit-based system equivalent in computational power to a universal quantum computer. Offers deterministic outputs identical to quantum systems without requiring quantum hardware.

This is Full Quantum AI—running on Production-Grade Quantum Computers. Designed to deliver exponential computational advantage with drastically lower complexity and smaller model sizes. While the

Brain-inspired high-dimensional vector-symbolic architecture enabling advanced reasoning, memory, and learning. Powerful for drug discovery, cancer modeling, and bioinformatics at scale.

Supports 100K+ qubits for simulating quantum chemistry, material science, optimization, sampling, and quantum dynamics. High-resolution analog modeling platform.

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