Non Members -
19th- 21st June, Dublin (Synopsys, Blanchardstown) Trainer: Mr. Stefan Goi
Course Outline
Who should attend?
Developers, project leaders, quality managers who are engaged in the development of automotive safety-related systems based on the international standard ISO 26262.
Course Content: International Standard ISO 26262
General methods and requirements
Consideration of life cycle aspects of safety-related systems and components
Requirements concerning Management of Functional Safety
Requirements for the evaluation/judgement of Functional Safety
Meaning of Automotive Safety Integrity Level (ASIL)
Definition of requirements according to the chosen ASIL
Consideration of faults and fault models
Definition of measures against faults
– Fault avoidance
– Fault detection and fault control
Consideration during design, development and production phase
– Safety requirement specification
– Verification and validation plan
– Examples of :
Hardware design and verification
Software design and verification
Model-based software design
Calculation of the probability of violation of the safety goal
– Derivation of Reliability Block Diagram for different systems
– Architectural metrics, diagnostic coverage, single point faults metric, latent faults
– Dependent failures, cascading failures, common cause failures
– Example calculation
Constraints and conditions for the phases
– Commissioning, implementation, operation, maintenance
– Operation
Qualification of hardware components
Safety elements out of context (SEooC)
Trainer: Mr. Stefan Goi, from TÜV Rheinland
– Member of the German ISO 26262 National Committee (AK 32-08-01), as well as the HW and semiconductor subgroup (AK 32-08-03)
– Functional Safety Automotive Expert & Trainer at TÜV Rheinland Group
– 10 years previous work experience for Delphi Automotive Systems, mainly as a HW and system engineer.
For the full version of the course content or to book places, please contact Gerry.Byrne@edalics.com. This course is funded by Skillnet Ireland, through the Department of Education and Skills, and member company contributions.
Course Outline
Who should attend?
Developers, project leaders, quality managers who are engaged in the development of automotive safety-related systems based on the international standard ISO 26262.
Course Content: International Standard ISO 26262
General methods and requirements
Consideration of life cycle aspects of safety-related systems and components
Requirements concerning Management of Functional Safety
Requirements for the evaluation/judgement of Functional Safety
Meaning of Automotive Safety Integrity Level (ASIL)
Definition of requirements according to the chosen ASIL
Consideration of faults and fault models
Definition of measures against faults
– Fault avoidance
– Fault detection and fault control
Consideration during design, development and production phase
– Safety requirement specification
– Verification and validation plan
– Examples of :
Hardware design and verification
Software design and verification
Model-based software design
Calculation of the probability of violation of the safety goal
– Derivation of Reliability Block Diagram for different systems
– Architectural metrics, diagnostic coverage, single point faults metric, latent faults
– Dependent failures, cascading failures, common cause failures
– Example calculation
Constraints and conditions for the phases
– Commissioning, implementation, operation, maintenance
– Operation
Qualification of hardware components
Safety elements out of context (SEooC)
Trainer: Mr. Stefan Goi, from TÜV Rheinland
– Member of the German ISO 26262 National Committee (AK 32-08-01), as well as the HW and semiconductor subgroup (AK 32-08-03)
– Functional Safety Automotive Expert & Trainer at TÜV Rheinland Group
– 10 years previous work experience for Delphi Automotive Systems, mainly as a HW and system engineer.
For the full version of the course content or to book places, please contact Gerry.Byrne@edalics.com. This course is funded by Skillnet Ireland, through the Department of Education and Skills, and member company contributions.
