The Uncertainty Of Certifying AI For Automotive


Nearly every new vehicle sold uses AI to make some decisions, but so far there is no consistency in what is being developed, where it is being used, and whether it is compatible with other vehicles on the road. This fragmentation is partially due to the fact that AI is still a nascent technology, and cars and trucks sold today may be significantly different than those that will be sold sever... » read more

Advancing Automotive Functional Safety Through Analog & Mixed-Signal Fault Simulation


The automotive industry is undergoing a major transformation, driven by the rise of electric vehicles, ADAS, connected cars, and autonomous vehicles. Due to the safety-critical nature of automotive applications, the reliability and tolerance to faults in semiconductor designs becomes paramount. This white paper delves into the role of analog fault simulation in the context of automotive functio... » read more

How New Diagnostic Data And Operations Equip Flash Memory ICs For The Demands Of Automotive Functional Safety Standards


Automotive systems OEMs are starting to demand a new breed of flash ICs which can support the requirements of functional safety design at the system level better than previous generations of devices. This article studies the mode of operation of conventional NOR flash ICs, and explains the features that new automotive serial flash products will need to offer if they are to fully support system ... » read more

Automotive Safety Island


The promise of autonomous vehicles is driving profound changes in the design and testing of automotive semiconductor parts. Automotive ICs, once deployed for simple functions like controlling windows, are now performing complex functions related to advanced driver-assist systems (ADAS) and autonomous driving applications. The processing power required results in very large and complex ICs that ... » read more

Importance Of Certifications In Automotive IP


The automotive industry is renowned for its unwavering commitment to enforcing strict standards for enabling safety, quality, reliability, and security. However, upholding stringent measures to ensure vehicle safety and reliability has led to the need for predictive maintenance i.e., using advanced monitoring and analytical techniques as a part of Silicon Lifecycle Management (SLM) to anticipat... » read more

Automotive Safety Requires PVT Monitoring IP Within Semiconductor ICs


The modern automobile, especially with the move toward more electrification, presents huge challenges to the designers of vehicular electronics. Gone are the days of mechanical issues and oil changes being primary concerns. Today’s automobile has a high number of semiconductor chips performing functions for self-driving autonomous systems, advanced driver assistance systems (ADAS), connectivi... » read more

A Perfect Blend Of Quality In Functional Safety To Accelerate An Automotive IP Product Release


The integration of functional safety and quality into the automotive development process is crucial for ensuring the safety and reliability of vehicles on the road. Automotive manufacturers must take a comprehensive approach to both functional safety and quality, considering all aspects of the vehicle from design to production and beyond. This includes the use of advanced technologies s... » read more

FMEDA Powered Safety Verification Methodology For Semiconductors


Today’s automobiles require increasingly complex systems and chips, adherence to functional safety processes has become essential during the design development phase. The intricate nature of  semiconductors used in automotive applications is driving the need for functional safety throughout the entire supply chain, reaching not just the automobile manufacturers but also the semiconductor des... » read more

Creating IP In The Shadow Of ISO 26262


On many levels, designing IP for the automotive sector is similar to targeting aerospace or medical devices — human lives are at risk if something goes wrong, and the list of regulations is significant. In practice, it can turn an interesting chip design project into a complex and often frustrating checklist exercise. In the case of ISO 26262, that includes a 12-part standard for automotiv... » read more

A Safety Verification Methodology For Automotive Semiconductors


By Alessandra Nardi (Synopsys), Teo Cupaiuolo (Synopsys), and Liu Min (SGS-TÜV Saar) Functional safety has been a long-standing requirement for many electronics applications, including implanted medical devices, space-borne systems, and nuclear power plants. The widespread use of advanced driver assistance systems (ADAS) and the advent of self-driving vehicles have added automotive chips to... » read more

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