Functional Safety ISO 26262
Functional Safety ISO 26262
Automotive trends such as electrification, autonomous driving, advanced driving assistance and feature rich vehicle with comforts are changing the paradigm of the automotive industry. Vehicles are being equipped with more electronic components that have million lines of software codes. Thus, the need for reliable engineering with Functional Safety (ISO-26262) compliant in order to avoid or at least detect and mitigate malfunctions which would lead to any person being injured.
Benefits with our Functional Safety Service:
- Basic IEC61508 and derived Standard ISO26262 based system development
- Requirement engineering and end to end Traceability
- Consulting support to create HARA (Hazard Analysis and Risk Assessment)
- FMEA & FTA analysis in Medini Analyze
- Architecture and design experience on functional safety software
- Functional Safety in AUTOSAR
ISO 26262 TRAINING
Session 1: Fundamentals
• Why Functional Safety (Overview & Need)
• Needs for ISO26262 (History and Trends)
• ISO26262 all parts overview
• What is SOTIF(PAS21448)
• What is Cyber Security(ISO 21434)
• Functional Safety and Cyber Security basics and importance
• Systematic and Random Faults (faults classification as per ISO26262)
Duration: 4 hrs
Session 2: Functional Safety Management
• GAP and Need analysis for Functional Safety Process
• The ISO-26262 Dictionary – Vocabulary
• Process Tailoring
• Confirmation Measure (Review, Audit, Assessment)
Duration: 5 hrs
Session 3: Concept-Vehicle
• HAZOP (Malfunction Identification)
• HARA (HAZARD, Safety Goal, ASIL Determination)
• Functional safety concept (Functional Safety Requirement + System Basic Architecture)
Duration: 10 hrs
Session 4 : System
• Hardware Software interface specification
• System Integration ,testing and validation as per ISO26262
• System Safety Analysis(FMEA, FTA)
Duration: 8 hrs
Session 5: HW
• Hardware Design and verification
• Hardware components qualification
• Evaluation of Random HW failure metrics for safety goal violations
• Safety Analysis by FTA,FMEDA
• Diagnostics Analysis (SPFM- Single Point Fault Metrics, LFM – Latent Fault Metric, Diagnostics Coverage, PMHF)
Duration: 5 hrs
Session 6: SW
• Hardware Software Interface specification
• ASIL Decomposition & Criteria of Co-Existence
• ASIL Decomposition and FFI(Freedom From Interference)
• Software Unit Design and Implementation as per the ISO26262
• DFA (Dependent Failure Analysis)
Duration: 7 hrs
Session 7: SW Verification and Validation
• Software analyses (DFMEA, FTA)
• Tool Classification and Qualification
• Software components qualification
Duration: 4 hrs
Session 8: Supporting Process
• Configuration Management, Change Management,
• Proven in Use argument
• DMP (Document Management Plan)
• SW tool Qualification
Duration: 3 hrs
Session 9: ASIL/Safety Oriented Analysis
• Evidence of Field Monitoring
• SEOOC
Duration: 4 hrs