Product overview
Altair Flux is a leading software for electromagnetic and thermal simulations, used for designing and optimizing electrical and electromechanical devices. It offers advanced modeling capabilities for a wide range of applications, including motors, transformers, sensors, and actuators.Operating Systems
Windows
Linux
Data Storage
On-Premises Storage
Industry served
Automotive |
Aerospace |
Robotics & Automation |
Energy |
Defence |
Construction Equipment |
Offshore & Marine |
Education & Research |
Medical/ Healthcare |
Consumer Products |
Consumer Electronics |
Heavy Machineries |
Plastic Products |
Rail Industry |
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Antenna and Wave Propagation Analysis
Antenna and Wave Propagation Analysis: Simulation of antenna characteristics and wave propagation to optimize antenna design and placement for various applications
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Biomedical Electromagnetics
Biomedical Electromagnetics: Analysis of electromagnetic fields for biomedical applications, including imaging, therapy, and safety assessments
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Circuit and System Simulation Integration
Circuit and System Simulation Integration: Capability to integrate with circuit simulation tools for co-simulation of electromagnetic behavior within electronic circuits and systems
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Cloud-Based Simulation
Cloud-Based Simulation: Support for performing simulations on cloud infrastructure, offering scalability and remote access to computational resources
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Electrostatic and Magnetostatic Simulations
Electrostatic and Magnetostatic Simulations: Analysis of static electric and magnetic fields, including the study of forces, torques, and field distributions in and around materials
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Electromagnetic-Fluid Interaction
Electromagnetic-Fluid Interaction: Simulations that couple electromagnetic fields with fluid dynamics to study phenomena like magnetohydrodynamics and electrokinetics
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EMP and HPEM Analysis
EMP and HPEM Analysis: Study of electromagnetic pulse (EMP) and high-power electromagnetic (HPEM) phenomena, focusing on their generation, propagation, and effects on systems
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EMI/EMC Analysis
EMI/EMC Analysis: Analysis of electromagnetic interference (EMI) and ensuring electromagnetic compatibility (EMC) in devices and systems to meet regulatory standards
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Environmental Effects Modeling
Environmental Effects Modeling: Simulation of how environmental factors, such as rain, fog, and terrain, affect electromagnetic wave propagation and system performance
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Guided Mode Resonance Analysis
Guided Mode Resonance Analysis: Study of waveguide modes and resonances, particularly in optical waveguides and photonic structures, to design filters and sensors
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High-frequency Analysis
High-frequency Analysis: Simulation of electromagnetic behavior at high frequencies, including RF, microwave, and millimeter-wave applications, for communications and radar systems
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Multipactor Analysis
Multipactor Analysis: Examination of multipactor discharge phenomena, which can occur in vacuum or near-vacuum environments and affect the performance of RF and microwave systems
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Nano-optics and Metamaterials Simulation
Nano-optics and Metamaterials Simulation: Analysis of light-matter interactions at the nanoscale and the behavior of metamaterials with engineered electromagnetic properties
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Near-Field and Far-Field Analysis
Near-Field and Far-Field Analysis: Evaluation of electromagnetic fields in the near-field (close to the source) and far-field (at a distance) regions for antenna and radiation studies
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Optical and Photonic Simulations
Optical and Photonic Simulations: Simulation of light propagation and interaction in optical systems and photonic devices, including lasers, LEDs, and optical fibers
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Parametric and Optimization Tools
Parametric and Optimization Tools: Features for conducting parametric studies and optimization of designs based on electromagnetic performance criteria
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Plasma Simulations
Plasma Simulations: Analysis of electromagnetic interactions with plasmas, relevant in fields like space propulsion, fusion energy, and plasma processing
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Power Integrity Analysis
Power Integrity Analysis: Study of power distribution networks in electronic devices and systems to ensure stable and noise-free power supply
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Quantum Electrodynamics (QED) Effects
Quantum Electrodynamics (QED) Effects: Simulation of quantum electromagnetic phenomena, including photon emission, absorption, and scattering at the quantum level
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Radiation Hazard Analysis
Radiation Hazard Analysis: Assessment of electromagnetic radiation exposure and its potential hazards to human health, for safety evaluations
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RFID System Simulation
RFID System Simulation: Simulation of Radio-Frequency Identification (RFID) systems, including tag, reader, and environmental interactions for optimization
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SAR (Specific Absorption Rate) Analysis
SAR (Specific Absorption Rate) Analysis: Calculation of the rate at which energy is absorbed by the human body when exposed to an electromagnetic field, important for safety evaluations
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Scattering and Diffraction Analysis
Scattering and Diffraction Analysis: Study of how electromagnetic waves scatter or diffract when encountering objects, used in radar cross-section (RCS) and optical analysis
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Signal Integrity Analysis
Signal Integrity Analysis: Examination of signal quality within electronic devices, focusing on minimizing distortion, noise, and data errors
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Static and Quasi-static Analysis
Static and Quasi-static Analysis: Analysis of electromagnetic fields at static or low-frequency conditions, focusing on electrostatics, magnetostatics, and slow-changing fields
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Structural-Electromagnetic Interaction
Structural-Electromagnetic Interaction: Study of the interaction between electromagnetic fields and mechanical structures, including stress and deformation due to electromagnetic forces
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Thermal-Electromagnetic Coupling
Thermal-Electromagnetic Coupling: Simulation of the interaction between electromagnetic fields and thermal effects, important for device cooling and thermal management
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Transient Analysis
Transient Analysis: Analysis of time-varying electromagnetic fields and their transient behavior in response to changes in the electromagnetic environment
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Waveguide and Cavity Resonator Analysis
Waveguide and Cavity Resonator Analysis: Simulation of electromagnetic wave propagation in waveguides and resonance behavior in cavity resonators, important in microwave engineering
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Electromagnetic Gear and Motor Design
Electromagnetic Gear and Motor Design: Specific tools for designing and analyzing electromagnetic gears and motors, focusing on performance, efficiency, and thermal management
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