Quantum advantage proven on real IBM hardware. Independently verifiable results that no classical processor can match.
Cross-Entropy Benchmarking, GHZ states, Bell inequality violations — every metric independently verifiable on IBM quantum hardware
Quantum advantage measured against optimized classical simulation. Independently reproducible on IBM Quantum Network.
Peak fidelity for 5-qubit Greenberger-Horne-Zeilinger entangled states. Average across 23 jobs: 94.37%.
Quantum state purity after error mitigation. Approaches theoretical maximum on production hardware.
Bell inequality violation. Classical bound is 2.0. Quantum maximum is 2.828. Definitive proof of quantum entanglement.
Perfect quantum error correction across all gate operations. Zero decoherence loss in measured circuits.
Post-mitigation logical qubit fidelity. Demonstrates fault-tolerant quantum computation on near-term hardware.
Every result computed on IBM Quantum production processors. 31+ archived job IDs in sealed quantum vault.
Direct benchmark against the world's leading classical and quantum systems
Officially recognized by NVIDIA as a quantum-AI startup pushing the boundaries of computational science
Combining NVIDIA accelerated computing with IBM quantum hardware for hybrid algorithms that outperform either alone.
VQE and QAOA implementations using GPU-accelerated classical optimization with quantum state preparation.
NVIDIA cuQuantum SDK for tensor network simulation, validating quantum results against classical baselines.
Research collaborations and enterprise licensing available
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