Managing and optimizing thread overhead is important for safety-critical and embedded systems. Learn more about the C++ multithread common myths here.
Managing and optimizing thread overhead is important for safety-critical and embedded systems. Learn more about the C++ multithread common myths here.
Discover the critical role of effective interface management in complex systems. Learn how centralized tools, AI-powered solutions, and well-defined processes can prevent errors, enhance collaboration, and ensure safety in industries like automotive and aerospace.
The system requirements analysis process under ASPICE and ISO26262 frameworks shapes automotive system architecture design for enhanced safety, reliability, and compliance. Learn more about it here.
Compliance with ASPICE and ISO26262 standards provides a significant impact on automotive software development. Learn more about it here.
AI technologies like ChatGPT-4 are revolutionizing requirements engineering by improving accuracy, consistency, and efficiency. Learn about the role of AI in refining, validating, and managing project requirements here.
Model-Based Systems Engineering (MBSE) offers a robust framework to streamline the entire engineering process, from design to validation. Learn more about it here.
Data-Oriented Design (DOD) can revolutionize automotive software development by enhancing performance, reducing costs, and minimizing hardware requirements. Learn more about it here.
Explore the evolution of functional safety, its growing importance in industries like automotive, and the critical role of Fault Tolerant Time Interval (FTTI) in ensuring system reliability. Learn how FTTI, along with Malfunctioning Behavior Manifestation Time (MBMT) and Hazard Manifestation Time (HMT), contributes to robust safety designs, preventing hazards in safety-related systems such as ADAS and autonomous vehicles. Discover the impact of ISO 26262 standards on the development of effective fault detection and reaction mechanisms in automotive safety.
While ISO 26262 primarily addresses functional safety, SOTIF extends the scope to focus on potential hazards arising from system behaviour, even when the system functions as intended. Learn more about it here.
