Abstract: Static timing analysis attempts to exhaustively analyze all critical paths of a design. With ever decreasing geometries and ever increasing design complexity, manually identifying timing violations with standard static timing analysis can be very complex and time consuming. A static timing analysis tool can advantageously manage multiple runs having different modes and corners and automatically merge the results generated by the runs. The STA tool can perform the runs either in parallel or in series. Advantageously, the STA tool can save the full timing analysis generated by each run and then extract information from these saved results to form merged results for the design. These merged results can provide different levels of analysis coverage, supply path information at various levels of detail, allow selectable accessibility to information, and highlight propagation of timing changes/violations in the design.

Abstract: One embodiment of the present invention provides a system that reduces timing pessimism during Static Timing Analysis (STA). During operation, the system receives parametric variation data which describes the on-chip variation of timing-related parameters. Next, the system computes region-specific derating factors using the parametric variation data. The system then identifies a set of worst-case violating paths using the region-specific derating factors. Next, the system computes path-specific derating factors for one or more paths in the set of worst-case violating paths using the parametric variation data and the path properties. Finally, the system identifies zero or more realistic-case violating paths from the set of worst-case violating paths using the path-specific derating factors.