Stress simulation of large mechanical constructions

PROBLEMS Simulating complex structural mechanics in in large mechanical constructions, such as hydroelectric dams, bridges, or skyscrapers, requires solving computationally intensive partial differential equations. High precision is crucial in critical infrastructure, where minor errors can lead to catastrophic failures. SOLUTIONS Quandela’s Variational Quantum Differential Equation (VQDE) solver, known for its precision, models stress tensors and…

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PROBLEMS

Simulating complex structural mechanics in in large mechanical constructions, such as hydroelectric dams, bridges, or skyscrapers, requires solving computationally intensive partial differential equations. High precision is crucial in critical infrastructure, where minor errors can lead to catastrophic failures.

SOLUTIONS

Quandela’s Variational Quantum Differential Equation (VQDE) solver, known for its precision, models stress tensors and calculates optimal displacement fields.

BENEFITS

Our solution offers improvements in accuracy of simulation of structural mechanics in complex systems and potential speed ups in computation times. It enhances the ability to predict and prevent structural failures across various types of large mechanical constructions. This technology can be applied to a diverse range of projects, from hydroelectric dams to innovative architectural designs, enabling more efficient and reliable infrastructure development and maintenance.

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