New Technology Developed by Fujitsu Uses Artificial Intelligence to Automate the Design of Magnetic Material Geometries

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Figure 1: (Left) Simulation of the magnetic loss of an inductor (distribution of the density of magnetic flux within the magnetic material); (Right) Comparison of experimental and simulated results.

Fujitsu Laboratories Ltd. and Fujitsu Limited say they have developed technology that uses artificial intelligence to automate the design of magnetic material geometries — minimizing energy loss and speeding up the process of developing new products.

By automating and digitizing the development of prototypes, it can significantly improve efficiency in research and development especially by cutting the time and money spent on conducting tests based on trial and error, the companies said. It is expected to enable geometric designs for energy-efficient magnetics, even without specialized expertise, in a variety of fields including power electronics and electric vehicle motors.

Fujitsu aims to make design services incorporating the technology available through the cloud in 2020 and enhance its capability by linking it to materials informatics. The companies jointly provided the following explanation of the new system when it was announced in Japan on May 30.

Development Background

Magnetic materials, which become magnets when a magnetic field is applied, are used in a variety of components and devices, including electric vehicle motors and inductors, which store electrical energy in the power sources of electronic devices. However, there will always be some magnetic loss, where a portion of energy is lost as heat, due to magnetism. This magnetic loss can change significantly based on the geometry of the magnetic materials and is directly linked with the energy efficiency of the component or device. To deliver high energy efficiency, it has become important to design the geometries of magnetic materials with consideration for magnetic loss.

Issues

With existing design methods for the geometries of magnetic materials, because of the strong non-linearity unique to magnetic materials (magnetic hysteresis), it is difficult to find an optimal geometry for minimizing magnetic loss, thereby making automated geometry design challenging. In addition, even when a completed design is simulated, there can be errors in the magnetic loss simulation that differ by several multiples or even several orders of magnitude from experimentally measured values, inhibiting accurate predictions for design development. As a result, magnetic material geometry designs typically have had to rely on the experience and insight of designers as well as experimental trial and error, requiring substantial expenses of time and money.

About the Newly Developed Technology

Through the use of AI, Fujitsu and Fujitsu Laboratories have now developed technology to automate the design of geometries that minimize magnetic loss in virtual space. Details of the newly developed technology are as follows.

Technology to Accurately Simulate Magnetic Loss

With this technology, it has become possible to accurately compute the distribution of eddy currents that flow through an inductor by formularizing the dielectric effects of ferrite microstructures which are the main magnetic materials used as inductor materials. This makes it possible to accurately compute the size of eddy current loss, which is the primary cause of ferrite magnetic loss. Accordingly, while it was difficult for previous estimation methods to estimate the size of the eddy current loss when the inductor’s operating frequency exceeded a few dozen kilohertz, the new technology has enabled the estimation error for magnetic to be below 10% across a broad range of operating frequencies, up to several megahertz (Fig 1).

Technology to Optimize Design Using AI

By linking the newly developed magnetic loss simulation with a genetic algorithm, Fujitsu Laboratories and Fujitsu developed a formula to automatically find geometric parameters (dimensions for each part of the magnetic material’s shape) that minimize magnetic loss. The companies have now developed a technology to calculate the collection of optimal solutions (a Pareto optimal front) that with speed and stability minimizes magnetic loss by exercising control in consideration of magnetic characteristics, so as to maintain a proportion of superior individual items above a certain threshold of excellence, for respective generational change that brings about a next generation. For example, it is desirable for both the physical size and the magnetic loss of an inductor to be as small as possible. However, when inductance, which is the primary electrical characteristic of an inductor, is restricted to a certain level, there is a trade-off between the two. In that case, this technology is capable of automatically finding the set of optimal designs (Fig. 2).

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Figure 2: Results of automated design of an inductor (each dot corresponds to a single inductor geometry)

Effects

Using the newly developed technology, Fujitsu Laboratories and Fujitsu were able to automate the experimental design of magnetic material geometries in a virtual space. As a result of internal trials and when designing the shape of an inductor using ferrite materials, this technology made it possible to complete the development of prototypes in a few days, which would have taken several months beginning with the creation of multiple types of molds. In this way significant streamlining of R&D was made possible.

Future Plans

Fujitsu Laboratories and Fujitsu say they aim to make design services incorporating this technology available through the High Performance Computing cloud for scientific calculations in fiscal 2020. In addition, they aim to further develop this AI technology, enabling the creation of magnetic design geometries without specialized expertise by linking it with materials informatics.

Fujitsu is a major global information and communication technology company with 140,000 staff worldwide. Founded in 1968 as a wholly owned subsidiary, Fujitsu Laboratories is a major research organization with a global network of laboratories in Japan, China, the United States and Europe, conduction basic and applied research in the areas of next-generation services, computer servers, networks, electronic devices and advanced materials.

For more information, see www.fujitsu.com, and www.fujitsu.com/jp/group/labs/.

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