Altair Tech Symposium Series
Supercharging Electronic System Design and Development
Multiphysics Verification from Chip to Board to System
23rd September 2025 | Tuesday | 10:00 am - 01:30 pm
Location: JUPITER BLOCK, Prestige Tech Park 5th, Marathahalli - Sarjapur Outer Ring Rd, Bengaluru – 560103
Electronics product development is increasingly constrained by complex multi-domain interactions to achieve electronic, electrical, mechanical, thermal, and connectivity goals. Combined with compressed timelines and costly hardware validation cycles, industry needs a simulation-driven Multiphysics tools to address these challenges by unifying simulation, design, and test data into a continuous and traceable workflow.
With one, intuitive multiphysics environment that spans from chip to package to printed circuit board to system, Altair fosters seamless collaboration and optimizes performance throughout every stage of the design process.
Our AI-powered simulation tools are transforming how you design electronics, from antennas and sensors to power electronics, electromechanical systems, and PCBs. Our solutions enable simulation of structural, thermal and fluid properties, vibration, electromagnetics and manufacturing constraints in an integrated multiphysics environment. Altair’s integrated Electronic System Design approach ensures engineering decisions are based on accurate multi-physics models, streamlining your process, eliminating design iterations, reduce prototyping, shorten time to market, and bring greater confidence in reliability and compliance.
Join us to explore how these solutions drive innovation across critical applications such as power electronics, wireless connectivity, circuit simulation, electric motor design, thermal cooling, structural durability and PCB verification.
Agenda
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This session will showcase how Altair PSIM empowers engineers to accelerate power electronics design and simulation. Learn how PSIM enables fast power converter loss and motor drive efficiency calculations, conducted EMI analysis, and analog/digital control design and automatic embedded code generation, supporting rapid control prototyping. Also explore how PSIM’s can simplify the development of power supplies, and motor drive systems, making the design process faster and more intuitive. Finally, the session will demonstrate PSIM’s seamless integration with Altair tools such as Twin Activate, Embed, Flux/FluxMotor, as well as third-party software, delivering a comprehensive platform for multi-domain and multi-physics system simulation.
Learn how to accurately evaluate the performance of complex electronic assemblies under real-world conditions before physical prototyping, using highly automated workflows that significantly reduce time spent on model creation and result interpretation. Identify and resolve design issues early with thermal analysis, automate structural stress, vibration, and drop test simulations, and optimize electric motors by considering power output, noise, and thermal behavior.
Learn to optimize PCB layouts using advanced geometrical verification tools for signal and power integrity, EMI, and ESD protection, moving beyond traditional design heuristics. Explore streamline fabrication, assembly, and testing processes while enhancing collaboration, ensuring design accuracy, performance, reliability, and compliance across the entire PCB development lifecycle.
Optimize wireless connectivity, including 5G, by ensuring electromagnetic compatibility and performing advanced antenna design and coverage analysis. Simulate wireless signal propagation and plan radio networks effectively across various environments, from individual buildings and campuses to entire cities and regions.
To meet today’s market demands an accelerated product development is the need of the hour. Traditional design and simulation workflows fall short in delivering an optimum design for complex electro-mechanical systems. AI and Digital Twin provide a paradigm shift in augmenting engineering design by helping build predictive models to help rapidly explore the design and monitor the performance of the product in operation. This session will give a brief overview of the AI technology and highlight specific case studies in electronic systems.
Engage with practical demonstrations and real-world use cases of physics-based digital twin implementations, including hardware-software validation projects at the our Innovation Centre..
Why Attend?
- Accelerate product development with a Multiphysics workflow that integrates design, simulation, and test data to streamline electronics development and minimize iteration cycles.
- Experience high-fidelity multi-physics analysis by integrating electronics, electrical, thermal, and mechanical domains into a unified workflow for accurate, reliable predictions.
- Reduce hardware testing with virtual prototyping by leveraging simulation-driven design to minimize physical prototypes, saving significant time, cost, and resources.
- Engage with practical demonstrations and real-world use cases of physics-based digital twin implementations, including hardware-software validation projects at our Innovation Centre.
Who Should Attend?
- PCB Design Engineers
- Electronics Design Engineering Professionals
- Hardware System Engineers
- Packaging Engineers
- Product Development Managers
- Power Electronics Engineers
- RF and Microwave Engineers
- CAE Simulation and Engineering Professionals
- Digital Transformation Professionals
- Chief Engineers and Principal Designers