Simulate wave phenomena in acoustics, seismology, and other fields to predict and analyze wave behavior in complex environments. Our tools support accurate modeling for engineering design and research applications.
Use advanced imaging techniques to model full wave propagation and reconstruct high-resolution interior structures. Ideal for material characterization, geophysical exploration, and non-destructive testing.
Build high-fidelity digital twins using physics-based simulations of 3D wavefields. Salvus supports scalable, efficient modeling for complex environments and advanced research workflows.
Access expert-led support for modeling and inversion projects of any scale. Our team delivers turnkey solutions using Salvus, tailored to your objectives and technical challenges.
Simulate wave phenomena in acoustics, seismology, and other fields to predict and analyze wave behavior in complex environments. Our tools support accurate modeling for engineering design and research applications.
By exploring new inspection techniques through simulations, you can innovate by evaluating the wave in a 2- or 3D virtual environment and optimize your settings to improve detection accuracy and reliability.
Use advanced imaging techniques to model full wave propagation and reconstruct high-resolution interior structures. Ideal for material characterization, geophysical exploration, and non-destructive testing.
Build high-fidelity digital twins using physics-based simulations of 3D wavefields. Salvus supports scalable, efficient modeling for complex environments and advanced research workflows.
Salvus excels in the large-scale computation of fully 3-D wavefields in realistic and complicated environments. In this use case, Salvus was used to investigate the character of vibrational strain signals recorded along an ocean bottom fiber-optic cable. High resolution surface and seabed topography, along with the accurate coupling of both viscoelastic and acoustic wavefields, are automatically included using our simple Python-based interface. Simulations such as these help researchers investigate new and exciting applications of distributed acoustic sensing (DAS). The following illustration highlights a few of the complexities Salvus handles - click on it to see a video of these waves propagating. All this readily scales from running on laptops, to GPU clusters all the way to big machines with thousands of cores. The simulation rendered above took less than a few minutes to run on a single GPU.
Access expert-led support for modeling and inversion projects of any scale. Our team delivers turnkey solutions using Salvus, tailored to your objectives and technical challenges.
Benefit from expert consulting and specialized assistance in the wider field of waveform modeling and inversion. This includes, but is not limited to:
Boost your team's capabilities with on-site or remote workshops, typically spanning 3 to 5 days. Learn best practices and advanced techniques directly from our experienced instructors.
Typically, we cover full waveform modeling and inversion from theory to applications, involving comprehensive hands-on sessions with the Salvus software suite. The workshop schedule is flexible and the contents can be adapted to your specific needs. The required computations can either be done using cloud-based services provided by Mondaic or on your local hardware. The main incentives of the workshop are to provide insights into the underlying physics and numerical methods, to accelerate the learning curve, and to give users a head start to use Salvus for their own work.
Gain actionable insights with our precision modeling and inspection services. We deliver reliable results to inform decision-making across research and engineering domains.
We can process ultrasonic measurements to validate inspection data, providing you confidence in the inspection procedures you design.
By modeling full waveform physics in a digital twin, our methodology is far less influenced by attenuation than normal C-Scan methods. If you're having trouble resolving signals of too many false calls, this is an excellent option to increase resolution.
