Simcenter Feko
Solving Connectivity, Compatibility, and Radar Challenges
SimcenterTM FekoTM is a Siemens product
SimcenterTM FekoTM is a Siemens product
For more than two decades, Simcenter Feko has stood at the forefront of high frequency electromagnetic simulation. Building on this strong foundation, it now offers a cost effective suite of parallelized solvers designed to support product development in an increasingly connected world.
Used globally across industries such as aerospace, automotive, telecommunications, and consumer electronics, Simcenter Feko helps teams shorten development cycles. By enabling simulation driven design and deployment strategies, customers achieve superior connectivity, improved performance, and enhanced product reliability.
Simcenter Feko covers the widest range of high frequency electromagnetic applications, empowering engineers to optimize wireless connectivity—including 5G—ensure electromagnetic compatibility (EMC), and perform radar cross section (RCS) and scattering analyses. From antenna simulation and placement, network and spectrum planning, to EMC/EMI assessment, radome design, bio electromagnetics, and RF device analysis, Simcenter Feko integrates seamlessly with other technologies to boost system level performance and reduce modeling time for complex systems.
A complete suite of advanced solvers with true hybridization capabilities enables efficient design, analysis, and optimization of connected devices, EMC compliant systems, and radar technologies.
Streamlined workflows—from geometry creation to results visualization—and robust scripting tools make it easy to achieve high quality results with speed and accuracy.
Support reliable connectivity, compatibility, and radar performance using advanced capabilities for spectrum management, radome modeling, and wireless coverage.
Different electromagnetic challenges require different numerical methods. Simcenter Feko includes a wide selection of solvers to support diverse applications and enable cross validation.
Complex, electrically large problems often cannot be solved with a single method. Simcenter Feko provides industry leading hybrid solutions that deliver efficient and precise results.
Extensive validation, continuous solver improvements, multi CPU parallelization, and GPU acceleration ensure exceptional computational performance.
Access advanced tools such as the industry’s most reliable commercial CMA solver, plus solutions for cable modeling, interference analysis, ultrasonic systems, and virtual test scenarios.
Simcenter Feko uniquely integrates antenna performance with radio coverage and network planning tools, supported by fast and accurate wave propagation models.
Accelerate design with intelligent optimization, combining design of experiments and machine learning to refine antenna performance and placement.
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CASE STUDY
The scope of this study was to determine and validate a more efficient simulation procedure for the design phase of Al-Si alloy components for the aeronautical industry.
aerospace magma metal process simulation
CASE STUDY
The adoption of SBES has significantly increased in the last two decades, driven by advancements in computing technology and the rise of Industry 4.0, which promotes nine key enabling technologies, including engineering simulation and big data analytics. SBES is crucial for the integration and automation of production systems, improving flexibility, speed, and quality.
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CASE STUDY
This technical article illustrates the advantages of using virtual simulation to evaluate the thermal processes of die casting to reduce the formation of residual stresses and deformations in the components produced.
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CASE STUDY
This article discusses the use of the Ansys HFSS SBR+ method for wave propagation analysis that is based on specific EM propagation formulations (commonly referred to as Asymptotic Methods), and which offers an effective alternative in terms of solution accuracy and computational cost. The method’s effectiveness is demonstrated in this case study that considers the analysis of an ESM sinuous antenna installed on an avionics platform.
ansys electronics
CASE STUDY
The study allowed the engineers to estimate the shape profile geometry after each roll pass, the rolls wear and the total load and point at which the beam will bend in off-center setups.
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