IDS offers its expertise in electromagnetic and design management with the EMACS (Electromagnetic Control and Survey) software 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 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.
EM.CUBE™ utilizes a modular approach to the solution of large-scale electromagnetic problems. This powerful software suite features a number of computational modules built upon a common framework that work together seamlessly to provide practical solutions to system-level RF problems. Each computational module has been optimized to address a certain class of electromagnetic structures based on a particular numerical technique.
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•Product Brochure: EM.CUBE Modular 3-D Simulation And Design Environment
•EM.CUBE Demo Download And Installation Instructions
AWR's AXIEM™ 3D planar electromagnetic (EM) software is an industry first to deliver EM analysis as a true upfront design technology
The ArchiTek™ FPGA Development Suite is designed to allow FPGA design engineers to add custom IP to a number of Pentek's Talon recording systems. FPGA IP can be added to the recorder to provide real-time, on-the-fly digital signal processing during the data acquisition process, greatly reducing the time associated with post-processing recorded data. ArchiTek provides a simple development environment that allows engineers to add FPGA IP such as threshold detection, spectral filtering, digital downconversion, demodulation or any other digital signal processing technique required.
FEKO Suite 7.0 sees the addition of a Finite Difference Time Domain (FDTD) solver to its comprehensive set of powerful computational methods as well as the hybridization of the Multilevel Fast Multipole Method (MLFMM) with Physical Optics (PO). Three new import file formats are also now available.
Wind turbines located near a radar installation can significantly interfere with the ability of the radar to operate properly. Remcom provides radar scattering expertise for government-funded research efforts into the impact that wind turbines and wind farms have on radar returns for Air Traffic Control (ATC) radar, early warning radar, weather radar, and instrumentation radar.
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