exida Training

Page tree
Skip to end of metadata
Go to start of metadata

You are viewing an old version of this page. View the current version.

Compare with Current View Page History

« Previous Version 31 Next »

Automotive ISO26262: Road Vehicles Functional Safety

Who should attend:

  • Safety Managers
    Development Engineers (System, Hardware and Software)
    Product Managers
    Project Leaders of safety related development projects
    Managers responsible for establishment of work processes
    Quality managers

Duration: 4 days

Language: German or English, training material will be in English.

Brochure


Scheduled courses

Course topics:

  • Functional Safety Overview / General Introduction
    • Why is Functional Safety needed in Automotive Industry?
  • FS Management & Safety Life Cycle Requirements (ISO 26262 - Part 2)
    • Activities for Functional Safety Management
    • Safety Plan
    • Safety Life Cycle Management
  • Risk Based Safety Requirements Engineering (ISO 26262 - Part 3)
  • Item Definition
  • Hazard Analysis & Risk Assessment
    • Safety Goal Definition with ASIL with examples and exercises
  • Functional Safety Concept
    • Warning and degradation concept
    • System Development
  • Technical Safety Concept (ISO 26262 - Part 4)
    • Safety Architecture and Architectural Elements
    • Safety Functions and Safety Integrity Function
    • Exemplification: typical solutions detailed in a technical safety concept,
      requirements allocation to system and ASIL Decomposition example
    • Verification: System Safety FMEA and FTA
  • Hardware-Software-Interface Specification: The ISO solution for an old problem
  • Item integration and testing
  • Validation
  • Release for Production
  • Optional:
    • Dependant failure analysis (DFA)
  • ISO 26262 lifecycle approach: Product Lifecycle and process requirements
  • Where is hardware development in the process model?
    • What are inputs to hardware development?H
  • Hardware Development (ISO 26262 - Part 5)
    • HW Safety Requirements
    • HW Architecture and Design with examples
    • HW Architecture Evaluation
      • Introduction into Fault Tree Analysis with exercise
      • Requirements for the Evaluation: Metrics for Safety Goal Violation
      • Fault models, failure rates and target values
      • Presentation of the probabilistic approach
      • qualitative approach with a semi probabilistic argumentation
  • How to evaluate the metric for "Safety Goal Violation"
    • exemplification: calculation via FTA based on the results of the quantitative FMEDA
  • How to evaluate the metrics SPFM and LFM
    • exemplification: exida FMEDA approach for metric calculation
  • HSI - Cooperation with the software team
    • Hardware-Software-Interface Specification HSI
  • Qualification of HW components (ISO26262 - Part 8 § 13)
  • Optional:
    • ASICs in the scope of the ISO 26262
    • Communication channels and their evaluation
    • Dependant failure analysis (DFA)
  • Software Development Process (ISO 26262 - Part 6)
    • Content of the Software Safety Process, how to do initiation and tailoring
  • Software Safety Requirements Specification:
    • Sources of Software Safety Requirements and interfaces to System Level
    • Interpretation of properties and attributes required by ISO26262
    • Practical methods how to derive and detail requirements for the software
    • Methods for the verification of Software Safety Requirements
  • Software Architecture:
    • How to develop a Software Architecture acc. to ISO26262
    • Semi-formal architecture development - interpretation of ISO26262
    • Measures to be considered
    • ASIL Decomposition at the software level
    • How to implement Freedom from Interference
    • Safety requirements allocation to software architectural components
    • Methods for the verification of the Software Architecture
  • Software Unit Design
    • Content of a semi-formal Software Unit Design Specification
    • Interpretation of design requirements recommended by ISO26262
    • How to deal with OO programming languages (C++)?
    • Methods for the verification of the software unit design
  • Software Safety Verification
    • Software Analysis Techniques
      • Software Criticality Analysis
      • Software Dependent Failure Analysis
    • Software Testing Techniques (Unit and Integration Testing)
      • Requirements based (Equivalence Classes, Boundary Values, etc.)
      • Structure based (Statement Coverage, MCDC, Call Coverage, etc.)
  • Tool classification and qualification 
  • Software qualification: How to deal with existing components?



Copyright © 2019 - exida Development srl

  • No labels