Intro

Speaker

What is Functional Safety?

Formal structure of ISO 26262

Part 1 - Vocabulary

Part 2 - Management of Functional Safety

The V-shape of the System Development Lifecycle

Part 3 - Concept phase

Part 4 - Product development at the system level

Part 5 & 6 - Product development at the hardware and software level

Part 9 - Safety analyses

Part 7 - Production, operation, service and decommissioning

Part 8 - Supporting processes

Part 10 - Guidelines

Part 11 - Semiconductors

Part 12 - Motorcycles

Summary and key lessons

Outro

Why Is Safety Analysis Important

Safety Analysis

Unreasonable Risks

What Are the Safety Analysis Methods Out There That We Use that Are Often Used

Inductive Safety Analysis

What Does Fmea Stand for Fmea Stands for Failure Modes and Effects Analysis

Fmea Methodology How To Conduct an Fmea

Failure Net

Functional Safety

Logical Operations

Intro

Speaker

ISO 26262 - Concept Phase

Safety lifecycle

Topic 1 - Item definition

Topic 2 - Impact analysis

Topic 3 - Understanding risks

Topic 4 - Functional safety concept

Key lessons - summary

Outro

Introduction & Speaker

Importance of System Level

Safety lifecycle

Aspects of system level

Reference phase model

Topic 1 - Technical safety concept

Topic 2 - System and item integration and testing

Topic 3 - Safety validation

Summary & Outro

Functional Safety

Safety Life Cycle

Assessment the Functional Safety Concept

The Functional Safety Concept

Functional Safety Concept

Initial Lessons

Questions Must Be Answered by the Functional Safety Concept

Operational Watch Displays and Prompts

Use Safety Analysis To Underpin the Safety Concept

Introduction

Definitions

Hazard Analysis and Risk Assessment

Level of risk (ASIL)

How to achieve Functional Safety?

ISO 26262 trainings by SGS TÜV

Intro & Speaker

1. Key lesson

2. Key lesson

3. Key lesson

4. Key lesson

5. Key lesson

6. Key lesson

7. Key lesson

8. Key lesson

9. Key lesson

Software integration and verification

Test of the embedded software

Summary of key lessons

Outro

Introduction

Functional Safety with ISO 26262

We Implement the Solutions to Your Current Challenges

Functional Safety Challenge: Complexity and Competences

Functional Safety - Broad Exposure

Functional Safety - Wide Impact

Functional Safety - Complex Standard

Parts of ISO 26262 - 2nd Edition (Q3 of 2018) - Main Changes

Legal Liability: State of the art of science and technology

Basic Concept of ISO 26262: Risk Classification by ASIL

Approaches to Risk Reduction

Development - HARA for deriving Safety Goals and ASIL

Vector Experiences - Systematic Analysis and Design

Vector Experiences - Including the Customer and Supplier

Vector Experiences - Development Interface Agreement (DIA)

Vector Experiences - Performing Audits and Assessments

Vector Experiences - Security Directly impacts Safety

ISO26262 Experience

Intro

Speaker

Importance of Functional Safety Management

ISO 26262 Management - Overview

Part 1: Safety lifecycle

Part 2: Overall safety management

Part 3: Project level

Part 4: Documenting evidence of safety

Part 5: Building trust

Part 6: Post-development safety management

Key lessons - Summary

Outro

Flashing of the Software

Mounting Types of Hardware Chips

Surface Mount

Automated Optical Inspection

Intro

Speaker

Part 5 of ISO 26262: Hardware level of Functional Safety

Safety lifecycle & reference phase model

Topic 1 - Specify HW safety requirements

Topic 2 - Hardware design

Topic 3 - Hardware architectural design

Topic 4 - Low probability of failure

Topic 5 - HW integration and verification

Summary: Key lessons

Outro

Introduction

1. Functional Safety assessments

2. Implementation with interim assessments

3. Commissioning of assessments

4. Practical hints for implementation

5. The assessment report

Summary & Key lessons