XFdtd Features

XF's unique collection of features simplifies the analysis of even the most complex and massive problems.

High Performance Computing Options Improve EM simulation performance using the most modern high-performance computing technologies available.

XStream® GPU Acceleration Built-in EM Simulation Acceleration via GPUs. Combine with MPI technology for GPU clusters.

Circuit Element Optimizer Determines optimal values for lumped circuit elements connected directly into the EM simulation mesh.

Wrapping Flexible PCB and 2D Sheets Wrap a full, multi-layer flexible PCB design onto a form in one easy step, or wrap a sheet onto an arbitrarily shaped surface.

Optenni Lab Integration Easily generate a matching network topology and initial component values for your device.

PrOGrid Project Optimized Gridding® PrOGrid Project Optimized Gridding simplifies grid creation.

XACT Accurate Cell Technology® Faster, more accurate simulations.

MATLAB Export Functionality All data available through XF’s Result Browser can be exported to MATLAB and CSV formats.

Biological Thermal Sensor For biomedical analyses, allows metals and other non-biological objects to be included in the temperature rise computation.

Poseable Hands For mobile device design, XF can mimic numerous mobile device grips.

Simplified Workflow XF streamlines your workflow by eliminating time-consuming, redundant tasks.

Results and Output Complete result history.

Dynamic Interactive Graphs Working with results is simple in XF.

Powerful Flexible Modeling Spend less time modeling and more time getting results.  

Custom Scripted Features XF allows you to create your own custom features with a powerful scripting API.

Parameters Everywhere XF gives you more simulation control with parameterization.  

Fast Intelligent Meshing XF makes it easier to generate more accurate and efficient meshes with less work.

XF includes a specialized FDTD solver which outpaces other methods in efficiency as the number of unknowns increases. Learn more about the benefits of the FDTD method.