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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
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
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