FMEDA-Driven SoC Design Of Safety-Critical Semiconductors


As state-of-the-art electronics propel the automotive, industrial, and aerospace industry into a future of more connectivity and autonomy, the development of safety-compliant semiconductors is critical. The Cadence FMEDA-driven Safety Solution consists of products enhanced for advanced safety analysis, safety verification, and safety-aware implementation for digital driving analog and dig... » 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

The True Cost Of Software Changes


Safety and security are considered to be important in a growing number of markets and applications. Guidelines are put in place for the processes used to develop either the hardware or the software, but what they seem to ignore is that neither exists in a vacuum. They form a system when put together. Back when I was developing tools for hardware-software co-verification, there were fairly co... » read more

Functional Safety Across Analog And Digital Domains


The autonomy of vehicles has been all the rage recently. There are different levels of autonomous driving, with level 5 “Full Automation” being the target the industry is working towards, and Level 2 “Partial Automation” and Level 3 “Conditional Automation” being the level at which the automotive sector currently delivers the most technology. The amount of electronics in cars has be... » read more