Professional Course in
E&E Architecture Design
Duration – 48 Hours Mode of Delivery – ILT Sessions / PhysicalCourse Overview
This course equips automotive professionals with the essential skills to design, develop, and integrate advanced E/E systems in electric vehicles. As EVs evolve into software-driven, electronics-intensive platforms, mastering functional, domain, and zonal architectures, along with communication protocols and embedded systems, is crucial for optimizing performance and driving innovation.
Target Audience
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Professionals working on vehicle architecture in the automotive industry
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Engineers involved in embedded software development for EVs
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Systems engineers focusing on integration and system-level design
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Specialists in automotive communication systems and protocols
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Early-career engineers seeking foundational knowledge in E/E architecture
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Program managers and team leads looking for advanced technical insights
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Program managers overseeing E/E system development
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Cross-functional teams aiming for hands-on experience through projects and simulations
Objectives
To gain a clear understanding of the role E/E architecture plays in the design, functionality, and safety of electric vehicles and their subsystems.
To apply systems engineering principles to design modular and scalable E/E architectures that meet functional and performance requirements.
To develop layered architecture models, including functional, domain, and zonal structures, to support advanced EV system design and integration.
To explore the use of High-Performance Computing (HPC) platforms and virtualization technologies, such as hypervisors, in managing EV control systems and autonomy.
To integrate and evaluate communication protocols like CAN, LIN, Ethernet, FlexRay, and MOST based on specific application needs within the vehicle network.
To understand and implement both Classic and Adaptive AUTOSAR frameworks to build modular, reusable software components for EV applications.
To analyze emerging trends such as AI integration, cybersecurity, edge computing, and autonomous technologies and their impact on future E/E systems.
To apply practical knowledge through hands-on case studies, architecture simulations, and cross-domain system design exercises.
Course Modules
Introduction to E/E Architecture for EVs
Functional and Domain Architectures
Zonal Architecture
High-Performance Computing and Hypervisor
Communication Protocols – Part I
Communication Protocols – Part II
Introduction to AUTOSAR Architecture
Classic AUTOSAR
Adaptive AUTOSAR
Advanced Topics and Future Trends
Job Roles
E/E Systems Engineer
Vehicle Architecture Engineer
Embedded Systems Engineer
Network Communication Engineer
AUTOSAR Developer
Systems Integration Engineer
Functional Safety Engineer
Advanced Vehicle Systems Engineer
E/E Architecture Specialist