ISO 26262 Systems, Hardware and Software Training

Hands-on Workshop

Venue : T-works
Date : TBA
Duration : 3 Days
Registration : ₹15,000+ GST

Open to automotive system, hardware, software, testing, and functional safety professionals from OEMs and Tier-1/Tier-2 suppliers, including engineers, quality and safety specialists, and validation teams.

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System-Level Functional Safety

  • Functional safety flow, lifecycle, Concept (TSC) and TSR development

  • System safety analyses (FMEA, FTA)

  • System integration, testing, and safety validation

Hardware Functional Safety

  • Hardware safety models and failure concepts

  • Hardware safety requirements and HSIS

  • Hardware architecture and safety analysis

  • Quantitative metrics and FMEDA

  • Hardware integration testing

Software Functional Safety

  • Software safety lifecycle and FFI concepts

  • Software safety requirements and architecture

  • Software safety analysis and dependent failures

  • Unit design, verification, and integration testing

  • Embedded software testing strategies

Core Learning Pillars

✔ Complete coverage of ISO 26262 Parts 4, 5, and 6

✔ Strong focus on system, hardware, and software safety integration

✔ Practical interpretation of clauses, work products, and safety analyses

✔ Hands-on understanding of FMEA, FTA, FMEDA, and verification strategies

✔ Real-world perspective using reference systems and examples

✔ Suitable for both classroom and online delivery

Key Highlights

✔ Understand and apply ISO 26262 across system, hardware, and software levels

✔ Develop and analyze safety concepts, requirements, and architecture

✔ Perform and interpret FMEA, FTA, and FMEDA

✔ Execute functional safety activities aligned with OEM expectations

✔ Contribute effectively to verification, validation, and integration activities

✔ Bridge gaps between system, hardware, and software safety teams

Program Outcome

Program Details

    • Introduction to Functional Safety

    • Flow of Functional Safety

    • Clause 5: General topics for Product development at System level

    • System Architecture - a big picture view

    • Introduction to Reference system

    • Clause 6: How to prepare a Technical Safety Concept

    • Clause 6: Steps involved in creation of TSRs

    • Understanding the concept of Freedom From Interference

    • Clause 6: System Safety Analysis - FMEA

    • Clause 6: System Safety Analysis FTA

    • Clause 6: Hardware Software Interface Specification - with respect to Safety

    • Clause 7: System & Item Integration and testing of TSRs

    • Clause 8: Safety Validation of FSRs and Safety goals

    • Why is HW Safety Important?

    • Hardware Safety Model

    • Clause 5: General topics for Product development at Hardware level

    • Introduction to the Reference System used for explaining HW activities

    • Basic concepts for HW Safety (Failures, Diagnostic coverage etc)

    • Clause 6: Hardware Safety Requirements - What aspects should be considered, how to write and examples

    • Clause 6: HW-SW Interface Specification - Role of HSIS in Hardware Safety

    • Clause 7: Hardware Architecture and schematics

    • Clause 7: Overview of Hardware Safety Analysis and methods for performing it

    • Clause 7: Hardware dependent failure analysis

    • Clause 8 & 9: HW Architectural metrics and Safety goal violation evaluation using Quantitative HW Analysis (FMEDA)

    • Clause 10: Hardware Integration Test Specification - Methods and examples

    • Clause 10: Execution of Hardware Integration tests

    • Why is SW Safety Important?

    • Software Safety Model

    • Clause 5: General topics for Product development at Software level and what should be

    • practically done to satisfy it?

    • Understanding concept of FFI - Annex D: Freedom from Interference

    • Introduction to the Reference System used for explaining SW Activities

    • Clause 6: Software Safety Requirements - What aspects should be considered, how to write and examples

    • Clause 6: HW-SW Interface Specification - Role of HSIS in Software Safety

    • Clause 7: Software Architecture - What aspects should be considered, how to write and examples

    • Overview of Annex E: Software Safety Analysis and Dependent failure analysis

    • Annex C: Software Configuration and Calibration, how to identify safety relevant data and how to handle them

    • SW Verification Plan and Strategy

    • Clause 8: Software Unit design and implementation - What aspects should be considered and examples

    • Clause 9: Software Unit Verification - Different methodologies of verification and

    • examples

    • Clause 10: Software Integration and Verification - Methods of Integration testing and

    • examples

    • Clause 11: Testing of the Embedded Software - Methods of Embedded software testing and examples

Advance your functional safety expertise with hands-on learning across ISO 26262 Parts 4, 5 & 6

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