Functional Safety for FPGA-Based Autonomous Systems
New White Paper: ISO 26262 Compliance in Automotive Embedded Hardware
Modern vehicles are no longer just machines for mobility—they’re intelligent, connected systems that demand extreme performance, reliability, and safety. As the automotive industry accelerates toward full autonomy and software-defined vehicles, embedded hardware architectures must evolve to meet new levels of functional safety and real-time processing.
Why This White Paper Matters
In this white paper, CS Canada provides practical guidance for:
- System developers
- Hardware designers
- Safety engineers and integrators
The focus is on performing safety analysis for FPGA-based systems, streamlining development, reducing costly iterations, and ensuring a successful path toward ISO 26262 certification.
Whether you work on ADAS, autonomous driving (AD), V2X, or infotainment systems, you’ll discover how FPGAs offer the ideal platform to meet the demands of functional safety and cybersecurity in modern automotive systems.
Key Topics Covered
- Limitations of traditional microcontrollers in real-time automotive use cases
- The benefits of parallel processing and reconfigurability in FPGAs
- How FPGAs support advanced safety features in autonomous driving systems
- Practical steps to align FPGA development with ISO 26262 functional safety lifecycle