The ANSYS HFSS is industry standard software made to simulate 3-D full-wave electromagnetic fields. The HFSS features gold-standard accuracy, and advanced solver and high-performance computing technology, making it ideal for designing high-frequency and high-speed electronics found in communication systems, radar systems, satellites, smart phones, and tablet devices.
IDS offers its expertise for electromagnetic and design management with the EMACS (Electromagnetic Control and Survey) software that is designed to apply advanced simulation techniques to assess the performance of communication, navigation, and surveillance systems. EMACS is composed of a modular set of validated 3D modeling and simulation tools specialized for working with electromagnetic compatibility (EMC) and electromagnetic interference (EMI) issues.
The Galileo Suite from IDS is an electromagnetic environment modeling and simulation tool designed for use in virtual testing applications within naval, aeronautical, and space industries. From single antennas to complex platforms, the Galileo Suite is prepared to assist engineers in the design, measurement, and simulation of many electromagnetic systems and devices.
CST MICROWAVE® STUDIO (CST MWS) is a powerful tool for the 3D electromagnetic simulation of high frequency components. CST MWS offers unparalleled performance, making it first choice in technology leading research & development departments.
The new NI AWR Design Environment™ V12.02 is an all-inclusive simulator system composed of Microwave Office, Visual System Simulator™ (VSS), Analog Office, AXIEM, and Analyst™. The new system is an advanced version of the V12, offering new load-pull features as well as improvements to the Analyst 3D element method electromagnetic simulator and layout, and to NI AWR Design Environment modeling, scripting, and stability analysis.
Blink is the industry’s first modeling software to offer two different EM (electromagnetic) solvers for the design of passive devices. It allows IC designers to model new passive devices within a normal Cadence Virtuoso based integrated circuit design flow. It quickly characterizes spiral inductors, baluns, transformers, MIM caps, interdigitated capacitors, and transmission lines for RFIC and mixed signal IC design.