In-Person Training

In-person
ISO 26262
Training

Immersive, hands-on training sessions designed for teams and organizations. Get personalized instruction and real-world case studies from an industry expert.

On-Site
Available
Customized or Standard
Curriculum
1-5 Days
Duration
Multiple Languages
Available
Training Benefits

Why Choose In-Person
Training?

Experience the power of interactive learning with immediate feedback and peer collaboration

Interactive Q&A

Get immediate answers to your specific questions and challenges in real-time discussions.

Team Collaboration

Work together on exercises and case studies that reflect your actual project scenarios.

Hands-on Exercises

Practice with real ISO 26262 documents, tools, and methodologies during the training.

Customized Content

Training adapted to your industry, project phase, and specific functional safety challenges.

Training Curriculum

Training Agenda Proposals

Comprehensive curriculum designed to build your ISO 26262 expertise progressively

ISO 26262 Fundamentals

Essential overview for teams new to functional safety

  • Introduction & Standard Overview

    ISO 26262 history, scope, automotive safety lifecycle, and standard structure. Understanding the automotive industry context and regulatory landscape.

  • Hazard Analysis & Risk Assessment

    HARA methodology, ASIL determination, safety goals definition. Hands-on workshop with real automotive examples and group exercises.

  • System Development Process

    Safety architecture design, requirements specification, verification planning. Overview of system integration and validation approaches.

  • Practical Workshop & Q&A

    Hands-on exercises with real ISO 26262 documents, team discussions, and comprehensive Q&A session addressing specific project challenges.

ISO 26262 Foundation & System Development

Comprehensive two-day program covering core concepts and system-level implementation

  • Day 1: Foundations & Risk Assessment

    ISO 26262 standard overview, automotive safety lifecycle, functional safety management principles, HARA methodology, ASIL determination techniques, and safety goals definition with practical workshops.

  • Day 2: System Development & Verification

    Safety architecture design principles, safety concept development, requirements specification techniques, system integration approaches, verification and validation strategies, and testing methodologies with real-world case studies.

ISO 26262 Comprehensive Training

Three-day intensive program from fundamentals to practical implementation

  • Day 1: Fundamentals & HARA

    ISO 26262 standard introduction, automotive safety context, regulatory landscape, functional safety lifecycle phases, hazard analysis and risk assessment methodology, ASIL determination with hands-on workshops and team exercises.

  • Day 2: System Architecture & Requirements

    Safety concept development, system architecture design principles, safety mechanisms and redundancy strategies, architectural design patterns, safety requirements specification and derivation, system integration planning, verification strategies, and validation approaches with design workshops.

  • Day 3: Implementation & Case Studies

    Hardware and software development process overview, safety mechanisms implementation, testing strategies and validation approaches, integration methods, real-world automotive case studies, and lessons learned from industry implementations.

ISO 26262 Advanced Implementation Program

Four-day deep-dive into functional safety from concept to hardware and software implementation

  • Day 1: Foundation & Management

    ISO 26262 comprehensive introduction, automotive safety lifecycle, functional safety management processes, organizational requirements, competence management, safety culture development, and planning methodologies with management-focused workshops.

  • Day 2: HARA & System Development

    Advanced HARA techniques, ASIL determination methodologies, safety goals specification, safety concept development, system architecture design, safety requirements derivation, verification planning, and system integration strategies with intensive practical exercises.

  • Day 3: Hardware Development

    Hardware safety requirements analysis, hardware architecture design, safety mechanisms implementation, random hardware failures analysis, systematic failures prevention, hardware metrics calculation, diagnostic coverage, hardware-software interface, and verification methods with practical hardware examples.

  • Day 4: Software Development

    Software safety requirements specification, software architecture design, coding guidelines and standards (MISRA), software unit testing, integration testing, software verification methods, tool qualification requirements, and software development best practices with hands-on coding exercises.

  • Day 5: Advanced Topics & Assessment

    Safety case development and argumentation, functional safety assessment processes, production and operation phases, maintenance and decommissioning, advanced automotive technologies (ADAS, autonomous driving), industry case studies, lessons learned, and comprehensive review with final assessment and certification guidance.

ISO 26262 Complete Mastery Program

Comprehensive five-day program covering all aspects of functional safety from basics to advanced topics

  • Day 1: Foundations & Lifecycle

    ISO 26262 comprehensive overview, automotive industry context, regulatory requirements, functional safety lifecycle phases, management processes, organizational structure, competence requirements, safety culture, HARA fundamentals, and ASIL determination with extensive workshops.

  • Day 2: System Architecture & Design

    Safety concept development, system architecture design principles, safety mechanisms and redundancy strategies, architectural design patterns, safety requirements specification and derivation, system integration planning, verification strategies, and validation approaches with design workshops.

  • Day 3: Hardware Development

    Hardware safety requirements analysis, hardware architecture design, safety mechanisms implementation, random hardware failures analysis, systematic failures prevention, hardware metrics calculation, diagnostic coverage, hardware-software interface, and verification methods with practical hardware examples.

  • Day 4: Software Development

    Software safety requirements specification, software architecture design, coding guidelines (MISRA compliance), unit testing strategies, integration testing, software verification methods, tool qualification and validation, software configuration management, and development best practices with coding workshops.

  • Day 5: Advanced Topics & Assessment

    Safety case development and argumentation, functional safety assessment processes, production and operation phases, maintenance and decommissioning, advanced automotive technologies (ADAS, autonomous driving), industry case studies, lessons learned, and comprehensive review with final assessment and certification guidance.

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On-Site Available
Custom Curriculum
Multiple Languages