Custom Training Programs
Safety Critical Systems
Safety Critical Systems Programs
Program Details
- REF:SCS-1-2
- PROGRAM:Automotive Safety Critical Systems Certificate #1 & #2
- Price: Fast Track: $595 Workshop: $1149 Module: $2495
- Pre-Register
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
- Fast Track 8 self-paced hours 2 contact hours (optional)
- Workshop 16 self-paced hours 4 contact hours (optional)
- List microcontroller hardware and software features that support sustaining the quality of service in the presence of faults.
- List microcontroller hardware and software features that support ISO26262 automotive standard.
- Describe the acronym FIT and its’ importance to ISO26262 and ASIL ratings.
- List the constructs and applications that integrates the software and hardware in such a way that enables separation and modularity.
- Identify the terminology that creates a fault-tolerant architecture for safety-critical embedded systems.
- Identify the definitions and applications of ISO26262, Classic and Adaptive AUTOSAR, and emerging automotive standards.
- List microcontroller hardware & software features that support static & dynamic fault-tolerance enabling the continuance of operations.
- Identify the metrics related to the ASIL ratings and certifications of microcontrollers.
- Define HARA and its relationship to a microcontroller certification(s).
- Apply the terms error and fault correctly to various scenarios.
- Define the various microcontroller faults.
- List the common failure modes related to real-time embedded systems.
- List the microcontroller features that support transparent fault-tolerance systems.
- Identify the reliability metrics associated with ISO26262 compliance for a microcontroller.
- Identify a system’s operational failure modes.
- Define ODD and its relationship to a product’s operational failure modes.
- List next generation microcontroller technologies or features that are supporting transparent fault-tolerance.
- List organizations defining standards for next generation vehicles operating in SMART cities.