Every design verification technique requires coverage metrics to gauge progress, assess effectiveness, and help determine when the design is robust enough for tapeout. At every step of the way and ...

You certainly can’t improve something unless you measure it. So, how do you know if the functionality of your design has been verified completely? One metric that helps answer this question is ...

The most effective functional verification environments employ multiple analysis technologies, where the strengths of each are combined to reinforce each other to help ensure that the device under ...

Ensuring the reliability and performance of complex digital systems has two fundamental aspects: functional verification and digital design. Digital Design predominantly focuses on the architecture of ...

Attempting to achieve complete RISC-V verification requires multiple methodologies, one of which is coverage driven simulation based on UVM constrained random methods and complaint with the Universal ...

In semiconductor design, “signoff” is often treated as a single milestone. In practice, however, it encompasses distinct verification phases with unique objectives. Functional signoff and RTL signoff ...

PARTNER CONTENT Given the size and complexity of modern semiconductor designs, functional verification has become a dominant phase in the development cycle. Coverage lies at the very heart of this ...