Exhaustive functional coverage promises to revolutionize the design of ICs and other digital systems. Exhaustive coverage is now a genuine possibility because the scientific and mathematical ...

This article formalizes the concept of best possible verification quality — completeness — and describes a methodology, field-proven on many complex module and intellectual property (IP) designs, that ...

A Perspective in National Science Review outlines a new paradigm for fully automated processor chip design. By combining ...

In the past five years, few topics have received more attention in the trade press than design reuse. As system-on-chip (SoC) devices increase in complexity, resources become more scarce and market ...

This paper discusses the functional verification of IP cores and problems which arise during their implemenation in today’s advanced applications. First, the usual approach to functional ...

This paper presents a comprehensive literature review for applying large language models (LLM) in multiple aspects of functional verification. Despite the promising advancements offered by this new ...

System-on-a-chip (SoC) functional verification involves integrating multiple intellectual property (IP) blocks. Accordingly, understanding how to define, measure, correlate, and analyze appropriate IP ...

FPGA engineers are all doing functional verification using manual processes but growing system comlexity is the issue. Changing tools and methodologies may seem daunting, but there is a way to break ...

While the disciplines of functional verification and test serve different purposes, their histories were once closely intertwined. Recent safety and security monitoring requirements coupled with ...

Functional coverage is the major part of functional verification closure, as it directs the functional verification, as it demonstrates/measures the completeness of functional verification and also it ...