Key Features
Unified Multiphysics Insight for High-Performance Electrothermal Design
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Electrothermal and multiphysics simulation bring electromagnetics, thermal, and structural behavior together, enabling teams uncover hidden hotspots, make informed performance decisions, and build designs ready for real world demands.
Electrothermal reliability is now a make or break challenge as electronics shrink, speeds rise, and power densities surge. Designs must withstand extreme temperatures, unpredictable environments, and tightly coupled electrical-thermal-mechanical interactions. Electrothermal solutions from Ansys, part of Synopsys, deliver multiscale, multiphysics accuracy from chips to full systems. A unified platform accelerates collaboration and first pass success. GPU accelerated solvers and ROMs provide rapid, high fidelity results, while electrical-thermal-mechanical analyses uncover risks early to ensure durable, high performance architectures.
Unified Multiphysics Insight for High-Performance Electrothermal Design
Ansys Electronics Desktop (AEDT) unifies electromagnetic, thermal, mechanical, and circuit simulation with direct links to Ansys Icepak, Ansys Mechanical, Ansys Maxwell, and the full Ansys multiphysics portfolio.
Delivers unified multiscale and multiphysics simulation for accurate electrothermal design, enabling faster decisions, improved reliability, and optimized performance from system to silicon.
Enables high fidelity digital twins for design and operations, combining simulation and real world data to predict performance, optimize decisions, and improve reliability throughout the lifecycle.
Modern UX, GPU/CPU solvers, and HPC capabilities support faster meshing, higher-fidelity results, and efficient scaling for demanding electrothermal simulations.
Learn how Ansys Icepak and Ansys Discovery accelerate electronics cooling with real‑time multiphysics, rapid concept evaluation, and high‑fidelity thermal analysis to reduce failures and improve design reliability.
Explore a streamlined PCB electrothermal workflow, from DCIR simulation to Ansys Icepak thermal modeling, showing how coupled solvers and temperature-dependent materials improve accuracy for power integrity.
Learn how Ansys Maxwell and Ansys Icepak improve wireless charger design by predicting EM behavior, core and AC losses, and thermal performance while enabling full system level analysis with reduced order models.
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