Traditionally static timing analysis (STA) is used to verify if a CMOS digital design can meet the target speed at various process and interconnect corners. In practice, the worst-case slow or ...

Let's stare this fact in the eye: static timing analysis is grinding to the limits of its effectiveness. In its place, a hybrid timing analysis approach, which combines the efficiency of static ...

Static Timing Analysis (STA) not only acts as a connecting link between backend and frontend design activities, but more importantly helps in bridging the gap between simulation and silicon. STA is ...

Static timing analysis (STA) is used throughout chip design. It’s employed for the creation of basic constraints in synthesis, for block- and chip-level timing closure in physical implementation, and ...

WCET analysis is essential for proving multicore real-time systems meet safety-critical deadlines under all operating ...

Accurate static timing analysis is one of the most important steps in the development of advanced node semiconductor devices. Performance numbers are included in chip and system specifications from ...

About five years ago if you listened to the marketing messages in the EDA industry, you would have thought it would be impossible to produce chips without statistical static timing analysis (SSTA).

Statistical static timing analysis (SSTA) offers a number of advantages over traditional corner based static timing analysis. Most notably, it provides a more realistic estimation of timing relative ...

As the electronic design industry continues to push the limits of Moore's Law, a paradigm shift in timing analysis must be considered. The major reason for this is overly pessimistic timing analysis, ...