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ISO 26262 Edition 3: Three Big Things to Watch
ISO 26262 Edition 3 is taking shape to address today’s software-defined, automated, and highly connected vehicles. The standard is still under
The most powerful vehicle safety systems
ESP + iBooster : The “Invisible” Braking System that changes everything (and enables Autonomy) We often talk about ADAS, autonomous
Obsolescence in DO-254-Certified Systems
Guidance for Engineering Management in Aerospace.
FPGA, ISO 26262 & Autonomous Vehicle | The Key Challenges
Functional Safety for FPGA-Based Autonomous Systems New White Paper: ISO 26262 Compliance in Automotive Embedded Hardware Modern vehicles are no
Understand ASPICE in 5 minutes
While ISO 26262 addresses software safety, ASPICE steps in to handle broader elements, including management, support, and non-safety-related embedded software. At
ISO 26262 Edition 3: Three Big Things to Watch
ISO 26262 Edition 3 is taking shape to address today’s software-defined, automated, and highly connected vehicles. The standard is still under development, but the direction is already becoming clear. The main themes include closer alignment with ISO 21448 (SOTIF), the use of predictive maintenance as a safety mechanism, and clearer guidance for software reuse. With publication widely expected around 2027, now
The most powerful vehicle safety systems
ESP + iBooster : The “Invisible” Braking System that changes everything (and enables Autonomy) We often talk about ADAS, autonomous driving, and batteries… yet there’s a far more discreet technology – already fitted in most modern vehicles – whose impact on safety is massive: ESP (Electronic Stability Program), a key pillar of vehicle safety systems. The
Obsolescence in DO-254-Certified Systems
Guidance for Engineering Management in Aerospace.
FPGA, ISO 26262 & Autonomous Vehicle | The Key Challenges
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