The Report Per Constraint section provides more details for each of the
set_bus_skew
constraints. Each reported constraint
includes two parts:
- Detailed summary of the paths covered by the constraint.
- Detailed timing paths for the paths reported in the Per Constraint summary.
The detailed summary table provides the following information:
- From Clock
- Startpoints clock domain.
- To Clock
- Endpoints clock domain.
- Endpoint Pin
- Endpoint pin involved in the reported path.
- Reference Pin
- Reference pin used to compute the skew. Each row of this table refers to the reference pin which results in the largest skew for that endpoint path.
- Corner
- Fast/slow corner used to compute the worst skew to this endpoint.
- Actual
- Computed skew. The skew is the difference between the relative delay for Endpoint Pin minus the relative delay for Reference Pin and minus the relative CRPR.
- Slack
- The difference between the actual path skew and the requirement.
-from
and -to
options must be specified
when defining a bus skew constraint.By default, only the endpoint with the worst bus skew is reported. To
report multiple endpoints, the command line options -max_paths
and -nworst
can be used. They
work similarly as for the report_timing
command. For
example, the combination of -nworst 1 -max_path 16
reports, for each constraint, up to 16 endpoints with a single path per endpoint.
The detailed timing paths section provides a detailed timing path for
each of the pin pairs reported in the Per Constraint summary table. The number of
detailed paths that are reported is the same as the number of endpoints reported in the
summary table and can be controlled with
-max_paths
/-nworst
command line
options.
The format for the detailed bus skew timing path is similar to a traditional timing path. Clock uncertainty, however, is not included because the bus skew analysis is done on the same clock edge. Instead, the worst of the clock uncertainty from the endpoint or reference paths is reported in the bus skew header. The launch time of the destination clock is always zero. For each slack, a timing path to the endpoint and a timing path to the reference pin are printed. When the clock or the datapath cross multiple SLRs, some inter-SLR compensation is applied during the slack computation to prevent unnecessary pessimism. Such compensation is then reported in the bus skew header.
The following detailed path was reported using the command line option
-path_type short
to collapse the clock network
details. The path to the endpoint pin precedes the path to the reference pin. The path
header summarizes the information from the two detailed paths, plus the requirement and
the relative CRPR: