The following technical documentation is authored to provide user application support for the SynMatrix application.
With emerging fifth generation (5G) cellular communication systems, the demand for passive components is driving the growth of massive MIMO and carrier aggregation technologies. With this growth, microwave filters are faced with a number of technical challenges including miniature sizing with a demand for better electromagnetic performance such as lower passband loss, sharper skirts and higher isolation without increasing manufacturing costs. Ceramic waveguide filter design using different dielectric materials is well researched.
Neural network of calibrated coarse model and application to substrate integrated waveguide filter designAug 13, 2020 Publications
Another research paper uses the SynMatrix Design Platform. Abstract: In this article, we propose a novel neural network of calibrated coarse model, which can obtain the optimal filter response with as little training data as possible to synthesize the entire substrate integrated waveguide (SIW) filter.
We were featured in Microwave Journal's May 2020 issue. Check us out here in the Product Feature.
We recently authored a blog post, 'How to Design 5G and mm-Wave Filters Using AI-Optimized Tuning' that was hosted on the Ansys blog site.
The following publication has been approved for issue on the IEEE Transactions on Microwave Theory and Techniques.