100X Faster Superconductor Simulations

"Quanscient Allsolve is the 'go-to' tool for our most sophisticated superconductor simulations in stellarator design."

Lucio M. Milanese, PhD
Co-founder and COO, Proxima Fusion

"Simulation time from 3 weeks to 8 hours, with accuracy refined from 10% to 3% of experimental data."

Iana Volvach, PhD
Electromagnetic FEA Engineer, skyTran

"Quanscient Allsolve is a groundbreaking tool for advanced 3D superconductor simulations."

Antti Stenvall, PhD
Adjunct professor, Tampere University

"With Quanscient Allsolve, I am able to run complex simulations in under a day which would otherwise take a week to finish."

Nicolo Riva, PhD
PostDoc MIT at PSFC

"With Quanscient Allsolve, we found the working design in the first iteration, saving three months in product development time."

Antony Hartley
CAE Consultant, Pixieray

Accelerated runtime and accurate results

Run each simulation of a parametric sweep on its own hardware at the same time on our cloud to dramatically accelerate the runtime.
Benefit from the only robust commercial implementation of the H-phi formulation.
Solve nonlinear problems in transient or multiharmonic mode.
Match your experimental measurements better and reduce the number of unknowns significantly.

Flexible configurations

Easily and automatically set the net current with no additional degrees of freedom and no additional algebraic constraints providing a more stable simulation with faster and more accurate results.
No cooking recipes needed to handle insulators, thus allowing a more straightforward setup with fewer numerical parameters to tweak.

Robust simulations

Full device-level simulations in 3D down to the tiniest details.
Robust simulation of nonlinear ferromagnetic and superconducting materials.

Multiphysics approach

Easily coupled to thermal problems for quench simulations while taking mechanics into account.

Limitless automated processes

Automate your simulation with our powerful scripting interface.
Remove the simulation limitations that are imposed by a graphical interface and get exactly the results you want.

Full support every step of the way

You can get support directly from the experts on our team. We can provide training, workshops and can even implement simulation models for you.

On our documentation site, we offer a collection of tutorial videos and documentation updated weekly.

Large-scale nuclear fusion stellarator simulation

In a collaborative project with Proxima Fusion and Atled Engineering, Quanscient Allsolve was used to simulate a full-scale stellarator, a complex magnetic confinement device for nuclear fusion research.

The simulation involved over 300 million unknowns and required substantial computational resources.

Allsolve's cloud-based parallelization and DDM enabled the team to complete the simulation in less than 9 minutes using 500 cores, something that would have been impossible with traditional on-premise solutions.

This example demonstrates Allsolve's capability to handle large-scale, computationally demanding simulations in a fraction of the time, accelerating research and development in the field of fusion energy.

Read the full paper →

Non-insulated 3D HTS coil simulation

In our previous HTS webinar, we showed how Quanscient Allsolve can be used to simulate the magnetoquasistatic and thermal behavior of a non-insulated 3D HTS coil.

The simulation showcased the software's intuitive GUI and its ability to handle complex geometries and multiphysics interactions, including current sources, circuit coupling, and heat transfer.

Allsolve's automated features, such as automatic cuts for unconstrained coils, simplified the setup process and reduced the potential for errors.

The ability to efficiently and accurately simulate such complex systems allows engineers to optimize coil designs and improve their performance and reliability.

Watch the full step-by-step demo video on YouTube →

AC loss calculation in superconducting filaments

In this example, Quanscient Allsolve was used to run a simulation with five filaments embedded in a copper matrix using H-phi formulation.

With 1 399 033 degrees of freedom, the leading desktop multiphysics solver took 8 days to run it in a 96-core HPC.

Quanscient Allsolve solved it in just 1h 45 min using 640 cores. With just five cores, Quanscient Allsolve ran it in under 50 hours.

The results demonstrated Allsolve's capability to accurately predict AC losses, which is essential for optimizing the design and performance of superconducting wires for various applications, including superconducting motors and transformers.

Read the full publication →

Assess the compatibility of Quanscient Allsolve with your use case and existing workflows

Discuss pricing and evaluate the cost-effectiveness for your use case

Discover how Quanscient Allsolve could enhance your current simulation workflow and open up new possibilities