Quantum-powered CFD for defense
Partner with us to co-develop the quantum-native algorithms required for your most demanding fluid dynamics challenges.
Hypersonic aerodynamics · Hull hydrodynamics · Plume tracking
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Large-scale CFD in defense
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Extreme reentry thermal modeling, aerodynamic optimization, and complex fluid boundary simulation.
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Hull and propeller hydrodynamics, acoustic signature minimization, and operational range extension.
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CBRN dispersion tracking, fire and smoke propagation modeling, and rapid response planning.
How a pilot project works
Define a high-value, computationally heavy physics problem. We align the algorithmic design with your specific operational requirements and establish strict success criteria.
Assess quantum potential and design the algorithmic approach. We tailor QLBM circuits for native hardware gatesets and train your internal teams on applied quantum workflows.
We execute the tailored algorithms on real quantum hardware (superconducting or ion-trap) utilizing advanced noise mitigation techniques.
Conduct a rigorous comparative analysis against your classical HPC benchmarks to prove logarithmic scaling and performance. Finally, we map out a clear integration and hardware timeline for scaling.
Team snapshot
Quanscient Quantum Labs is an award-winning team of pioneers responsible for the world’s first multiphysics and 3D CFD simulations on real quantum hardware.
Designing and implementing quantum algorithms for CFD on real hardware, including 6 PhDs and 3 professors.
Covering novel quantum algorithms and lattice-based methods for simulation.
From the first CFD on real quantum hardware to the first 3D advection–diffusion on a superconducting chip.
