Advisors

Safety Lifecycle Evaluation Part 2: The Data is Compelling

Introduction This post builds upon the first post titled Key findings of a safety critical lifecycle evaluation. Simply put, productivity…

Automotive Safety Lifecycle Solutions

Key findings of a safety critical lifecycle evaluation

Introduction The demand for innovation continues to grow in safety-critical markets such as automotive, industrial, mil-aero, and medical. All Semiconductor…

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Navigating the Intersection of Safety and Security

Automotive IC safety and security continue to be hot topics across the industry, and one phrase you may often hear…

Getting your Safety Architecture just right

Introduction In a recent industry survey, roughly 40% of ASIC and FPGA project starts had functional safety part of their…

Part 7: The 2020 Wilson Research Group Functional Verification Study

IC/ASIC Design Trends This blog is a continuation of a series of blogs related to the 2020 Wilson Research Group…

Key Functional Safety Insights from the 2020 Wilson Research Survey

Every two years, Siemens casts a wide net to capture the latest trends and challenges in IC Design and Verification….

Part 1: The 2020 Wilson Research Group Functional Verification Study

In my previous blog, I introduced the 2020 Wilson Research Group Functional Verification Study (click here). The objective of my previous…

ISO 26262 fault analysis – worst case is really the worst

ISO 26262 fault analysis – worst case is really the worst

Worst case analysis is often a self-fulfilling prophecy: By preparing for the worst you actually make it happen. In our…

Getting ISO 26262 faults straight

Getting ISO 26262 faults straight

Random hardware faults – i.e. individual gates going nuts and driving a value they’re not supposed to – are practically…