During synthesis, some registers are replicated to improve the design performance. The user XDC constraints are not modified by the synthesis engine to include the replicated cells. If a timing constraint is attached to an object replicated by Vivado Synthesis, the replicated cells are not always covered by the XDC constraints depending on how the constraint is written, which can later impact the implementation quality of results.
When using Vivado Synthesis, the
get_cells
and get_pins
commands provide a
mechanism to automatically include the replicated objects.
For example, set_false_path –from [get_cells –hierarchical *rx_reg]
can
be rewritten as follows to also safely include the replicated objects during
implementation:
set_false_path -from [get_cells -hierarchical *rx_reg -include_replicated_objects]
The command line option -include_replicated_objects
relies on the property
ORIG_CELL_NAME
set on the replicated objects. The following query
commands return the original cells with the replicated cells:
get_cells -include_replicated_objects *rx_reg
get_cells -include_replicated_objects [get_cells -hier -filter {NAME =~ *rx_reg}]
get_cells -hierarchical -filter {NAME =~ *rx_reg || ORIG_CELL_NAME =~ *rx_reg}
The -filter
option always applies after the collection of objects is
built. It is not recommended to use -filter
with
-include_replicated_objects
when the filtering expression refers to
the property NAME. In such scenarios, the replicated objects are not returned when they
do not match the pattern specified for NAME. For example, the syntax below does not
return replicated objects matching *reg_replica*
:
get_cells -include_replicated_objects -filter {NAME =~ *rx_reg}
AMD recommends running the methodology
checks (report_methodology
) and reviewing the XDCV-1 and XDCV-2 check
messages to identify constraints that need to be updated with the get_cells
/get_pins
-include_replicated_objects
option.
Before proceeding to implementation, you must verify that your design does not include any major timing violation. The place-and-route tools can fix most reasonable timing violations, but they cannot fix fundamental design issues that make timing closure impossible.
For more information, see the section 'Running Timing Analysis' in the Vivado Design Suite User Guide: Synthesis (UG901), or 'Guiding Implementation with Design Constraints' in the Vivado Design Suite User Guide: Implementation (UG904).