Hold/Removal Relationship - 2023.1 English

Vivado Design Suite User Guide: Design Analysis and Closure Techniques (UG906)

Document ID
UG906
Release Date
2023-05-16
Version
2023.1 English

The hold check (also called hold relationship) is directly connected to the setup relationship. While the setup analysis ensures that data can safely be captured under the most pessimistic scenario, the hold relationship ensures that:

  • The data sent by the setup launch edge cannot be captured by the active edge before the setup capture edge (H1a and H2a corresponding to setup edges S1 and S2 respectively in the following figure).
  • The data sent by the next active source clock edge after the setup launch edge cannot be captured by the setup capture edge (H2a and H2b corresponding to setup edges S1 and S2 respectively in the following figure).

During hold analysis, the timing engine reports only the most pessimistic hold relationship between any two clocks. The most pessimistic hold relationship is not always associated with the worst setup relationship. The timing engine must review all possible setup relationships and their corresponding hold relationships to identify the most pessimistic hold relationship.

For example, consider the same path as in the setup relationship example. Two unique setup relationships exist.

The following figure illustrates the two hold relationships per setup relationship.

Figure 1. Hold Relationships per Setup Relationship

The greatest hold requirement is 0 ns, which corresponds to the first rising edge of both source and destination clocks.

Once the path requirement is known, the path delays, the clocks' uncertainty, and the hold time are introduced to compute the slack. The typical slack equation is:

Data Required Time (hold) = capture edge time + destination clock path delay + clock uncertainty + hold time
Data Arrival Time (hold) = launch edge time + source clock path delay + datapath delay
Slack (hold) = Data Arrival Time - Data Required Time

As the equation shows, the hold slack is positive when the new data arrives after the required time.

The removal check is similar to the hold check, except that it applies to asynchronous pins such as preset or clear. The relationships are established the same way as for hold, and the slack equation is the same except that the removal time is used instead of the hold time.