Verifying the robustness of secure data access and the absence of functional paths touching secure areas.
How to identify design weaknesses, automatically repair the supply noise source, analyze the impact of dynamic voltage drop and verify power and signal EM.
While formal can be applied to entire blocks, it can be more valuable to apply it within blocks.
Learn more about a design-for-power methodology, from early in the design process at the RTL for maximum impact on power.
What technology and methodology are needed to verify the robustness of secure data access and ensure the absence of functional paths touching secure areas of a design.
A look at the challenges in designing smaller, faster and lower-cost products and how to enable comprehensive chip-package-system benefits across multiple disciplines.
Using the JasperGold low-power verification app to address power-aware verification challenges and requirements and overcome limits using traditional tools.
How to meet smart device requirements with high levels of sophistication and reasonable battery life.
Beginning early in the design process at the RTL level provides the largest impact on power.
Learn how to effectively manage design specifications (performance) and margins (price) with an accurate and predictive simulation-driven chip–package–system convergence methodology.