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You Will Meet Senior Strategic Decision Makers and Technical Influencers from Automotive OEMs With Responsibility for:

  • ADAS
  • BEV Architectures
  • Electronics and Software Integration  
  • E/E & Software System Design
  • Software Architectures
  • Embedded Electronics
  • Validation, Verification & Safety Analysis 
  • Software & Electronics Cost Optimization & Integration 
  • Embedded Electronics Architecture Optimization 
  • Cyber Security for E/E & Software Ecosystem 
  • Decentralized Architectures 
  • Software Safety Analysis 
  • Connected Vehicle Security 
  • Microprocessors & Microcontrollers
  • Battery Management System E/E & Software 
  • AC/DC Converter & Electronics 
  • Electronics & Software For On-Board Charging 
  • E-Motor Electronics & Software Control
  • Inverter Electronics & Software Control 
  • Powertrain Electronics
  • Camera & Sensor Integration 
  • Smart Sensors 


​Software and electronics architectures for the next generation of battery electric and assisted driving vehicles are undergoing a major evolution. The design of embedded systems architectures and software design techniques means that a redesign of the communication and computational architectures entails several opportunities but also bears many challenges. Complex legacy architectures are becoming a barrier to innovation and therefore a complete redesign and re-think is necessary to handle the complexity of battery management systems, electric powertrains, increased connectivity and the integration of distributed architectures, microcontrollers, sensors and cameras. All requiring continual updates with systems that need be protected at the highest level against all forms of cyber threat.

Brought to you by American Business Conferences, the creators of the original, world-leading Battery Electric Vehicle Architectures Series of events, the Electronics, Software and Hardware Integration for Next Generation Vehicles Virtual Congress, being held this February 2-3, 2022, is the first ever event specifically focused on solutions to the integration and optimization of automotive software and electronics architectures.

  • Learn About Verification Strategies to Make Evidence Based Decision-Making for Integration Testing for Increasingly Complex Embedded Systems
  • Learn About the Latest Methodologies for Software Integration Testing and Data Analysis 
  • Integration of Different Software Components From Diverse Vendors To Improve the Overall Functionality of the Application
  • Holistic Look at Security Including Deciphering the Entire Eco-System from the Vehicle to the Cloud Connectivity System and the Supporting IT Infrastructure


The Focus Of Electronics, Software & Hardware Integration:

Electronic System Design Verification & Safety Analysis Optimal Integration Holistic Cyber Security

Optimizing Architectures

Safety By Design

Application Of Simulation & Modelling

Ensuring Flexibility & Adaptability

Design For Holistic Cyber Security

Cost Effectively Attain Safety Standards

Apply AUTOSAR Methodologies

Improve Verification Strategy

Streamline Approval Process

BMS Electronics & Electrics


Distributed Architecture Safety

Camera & Sensor Software Integration 

Safe Microcontroller Usage

Evaluation of Entire Eco-System

Design Specification & Optimization For Cyber Security

Cloud Connectivity Focus

Implementation & Testing



Find & Discuss Solutions To Current Challenges:


  • How Can OEMS Design Embedded Systems That Are Modular, Flexible & Adaptable?
  • How Do You Establish Modularity, Portability & Standardized Interfaces To Deploy, Test, Validate & Centrally Manage All Of The Software Components?
  • How Can You Prevent Inconsistencies Creeping Into Your Safety Specifications To Develop A Software Development Environment That Is Sustainable & Efficient?
  • How Can You Leverage Design Safety Analysis Through Simulation To Understand Effectiveness?


DAY 1: E/E & Software System Design, Validation, Verification & Safety Analysis

  • Evolving Architecture Design To Optimize Integration & Maximize Flexibility
  • Cost Effectively Attain Safety Standards, Adapting Software Architectures To AUTOSAR Methodology And Improving Verification Strategies
  • Methodologies For Simplifying Safety & Security Processes & Establishing Modularity With Standardized Interfaces to Deploy, Test, Validate & Centrally Manage All Software Components

DAY 2: Safe & Secure Integration Of Battery Electric & ADAS Architectures & Applications

  • Improving The Efficiency Of Hardware & Operating System Integration For Control Units, Battery Management Systems & Electric Powertrain
  • Ensuring ADAS Safety Through Embedded Distributed Architecture & Optimal Integration Of Camera & Sensor Software
  • Addressing Cyber Security Threats Across The Entire Vehicle Eco-System From Whole Vehicle To Cloud Connectivity & Back End IT Systems 

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