Quartus® Prime Pro Edition User Guide: Timing Analyzer

ID 683243
Date 11/26/2024
Public
Document Table of Contents

1.1.5.1. Multicycle Clock Hold

The number of clock periods between the clock launch edge and the latch edge defines the setup relationship.

By default, the Timing Analyzer performs a single-cycle path analysis. When analyzing a path, the Timing Analyzer performs two hold checks. The first hold check determines that the data that launches from the current launch edge is not captured by the previous latch edge. The second hold check determines that the data that launches from the next launch edge is not captured by the current latch edge. The Timing Analyzer reports only the most restrictive hold check. The Timing Analyzer calculates the hold check by comparing launch and latch edges.

Figure 23. Hold CheckThe Timing Analyzer uses the following calculation to determine the hold check.
Tip: If a hold check overlaps a setup check, the hold check is ignored.

A start multicycle hold assignment modifies the launch edge of the source clock by moving the launch edge the number of clock periods you specify to the right of the default launch edge. The following figure shows various values of the start multicycle hold (SMH) assignment and the resulting launch edge.

Figure 24. Start Multicycle Hold Values

An end multicycle hold assignment modifies the latch edge of the destination clock by moving the latch edge the specific number of clock periods to the left of the default latch edge. The following figure shows various values of the end multicycle hold (EMH) assignment and the resulting latch edge.

Figure 25. End Multicycle Hold Values
Figure 26. End Multicycle Hold Values the Timing Analyzer ReportsThe following shows the hold relationship the Timing Analyzer reports for the negative hold relationship: