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Safety Critical Systems

Program Details

  • REF:SCS-1-2
  • PROGRAM:Automotive Safety Critical Systems Certificate #1 & #2
  • Price: Fast Track: $595 Workshop: $1149 Module: $2495
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Program Overview

Gain a broader perspective of the hardware and software requirements and regulations that support reliability. Introduction to the fundamental topics used in software and hardware architecture of safety-critical systems. Microcontroller features and software constructs that provide fault-tolerance to meet a product's operating environment, regulatory compliances, industry standards and use cases.

Designed for professionals with cross-functional responsibilities, which include hardware and software compute platforms.

Program Types

  1. List microcontroller hardware and software features that support sustaining the quality of service in the presence of faults.
  2. List microcontroller hardware and software features that support ISO26262 automotive standard.
  3. Describe the acronym FIT and its’ importance to ISO26262 and ASIL ratings.
  4. List the constructs and applications that integrates the software and hardware in such a way that enables separation and modularity.
  5. Identify the terminology that creates a fault-tolerant architecture for safety-critical embedded systems.
  6. Identify the definitions and applications of ISO26262, Classic and Adaptive AUTOSAR, and emerging automotive standards.
  1. List microcontroller hardware & software features that support static & dynamic fault-tolerance enabling the continuance of operations.
  2. Identify the metrics related to the ASIL ratings and certifications of microcontrollers.
  3. Define HARA and its relationship to a microcontroller certification(s).
  4. Apply the terms error and fault correctly to various scenarios.
  5. Define the various microcontroller faults.
  6. List the common failure modes related to real-time embedded systems.
  7. List the microcontroller features that support transparent fault-tolerance systems.
  8. Identify the reliability metrics associated with ISO26262 compliance for a microcontroller.
  9. Identify a system’s operational failure modes.
  10. Define ODD and its relationship to a product’s operational failure modes.
  11. List next generation microcontroller technologies or features that are supporting transparent fault-tolerance.
  12. List organizations defining standards for next generation vehicles operating in SMART cities.

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