check_timing (::quartus::sta)

The following table displays information for the check_timing Tcl command:

Tcl Package and Version

Belongs to ::quartus::sta 1.0

Syntax check_timing [-h | -help] [-long_help] [-append] [-file <name> ] [-include <check_list> ] [-panel_name <name> ] [-stdout]
Arguments -h | -help Short help
-long_help Long help with examples and possible return values
-append If output is sent to a file, this option appends the result to that file. Otherwise, the file will be overwritten. This option is not supported for HTML files.
-file <name> Sends the results to an ASCII or HTML file. Depending on the extension
-include <check_list> Checks to perform
-panel_name <name> Sends the results to the panel and specifies the name of the new panel
-stdout Send output to stdout, via messages. You only need to use this option if you have selected another output format, such as a file, and would also like to receive messages.
Checks for problems in the design or problems with
design constraints. The check_timing command performs
a series of different checks based on user-specified
variables and options. There is no default list of
checks. Use the -include option to specify which
checks to perform. You must preceed check_timing with

The no_clock check reports whether registers have at
least one clock at their clock pin, and that ports
determined to be clocks have a clock assigned to them,
and also checks that PLLs have a clock assignment.

The multiple_clock check verifies that registers have
at most one clock at their clock pin. (When multiple
clocks reach a register clock pin, it is undefined
which clock is used for analysis.

The generated_clock check verifies that generated
clocks are valid. Generated clocks must have a source
that is triggered by a valid clock.

The no_input_delay check verifies that every input
port that is not determined to be a clock has an input
delay assignment.

The no_output_delay check verifies that every output
port has an output delay constraint.

The partial_input_delay check verifies that input
delays are complete, and ensures that input delays
have a rise-min, fall-min, rise-max, and fall-max
portion set.

The partial_output_delay check verifies that output
delays are complete, and makes sure that output delays
have a rise-min, fall-min, rise-max, and fall-max
portion set.

The io_min_max_delay_consistency check verifies that
min delay values specified by set_input_delay or
set_output_delay assignments are less than max delay

The reference_pin check verifies that reference pins
specified in set_input_delay and set_output_delay
using the -reference_pin option are valid. A
reference_pin is valid if the -clock option specified
in the same set_input_delay/set_output_delay command
matches the clock that is in the direct fanin of the
reference_pin. Being in the direct fanin of the
reference_pin means that there must be no keepers
between the clock and the reference_pin.

The latency_override check reports whether the clock
latency set on a port or pin overrides the more
generic clock latency set on a clock. Clock latency
can be set on a clock, where the latency applies to
all keepers clocked by the clock, whereas clock
latency can also be set on a port or pin, where the
latency applies to registers in the fanout of the port
or pin.

The loops check verifies that there are no strongly
connected components in the netlist. These loops
prevent a design from being properly analyzed. The
loops check also reports if loops exist but were
marked so that they would not be traversed.

The latches check reports latches in the design and
warns that latches may not be analyzed properly. For
best results, change your design to remove latches
whenever possible.

The pos_neg_clock_domain check determines if any
register is clocked by both the rising and falling
edges of the same clock. If this scenario is necessary
such as in a clock multiplexer, create two separate
clocks that have similar settings and are assigned to
the same node.

The pll_cross_check checks the clocks that are
assigned to a PLL against the PLL settings defined in
design files. Inconsistent settings or an unmatched
number of clocks associated with the PLL are reported
to the user.

The uncertainty check reports each clock-to-clock
transfer that does not have a clock uncertainty
assignment set between the two clocks.  When a device
family has derive_clock_uncertainty support, this
report also checks if a user-defined
set_clock_uncertainty assignment has a less than
recommended clock uncertainty value.

The virtual_clock check reports all unreferenced
virtual clocks. It also reports if design does not
have any virtual clock assignment.

The partial_multicycle check ensures that each setup
multicycle assignment has a corresponding hold
multicycle assignment, and each hold muticycle
assignment has a corresponding setup multicycle

The multicycle_consistency check reports all the
multicycle cases where a setup multicycle does not
equal one greater than the hold multicycle. Hold
multicycle assignments are usually one cycle less than
setup multicycle assignments.

The partial_min_max_delay check verifies that each
minimum delay assignment has a corresponding maximum
delay assignment, and vice versa.

The clock_assignments_on_output_ports check reports
all the clock assignments that have been applied to
output ports.

The input_delay_assigned_to_clock check verifies that
no input delay value is set for a clock. Input delays
set on clock ports are ignored because clock-as-data
analysis takes precedence.

The generated_io_delay check reports all the IO delays
that have no specifications for -reference_pin, -clock
(generated clocks), or -source_latency_included.
Example Usage
# Constrain design
create_clock -name clk -period 4.000 -waveform { 0.000 2.000 } [get_ports clk]
set_input_delay -clock clk2 1.5 [get_ports in*]
set_output_delay -clock clk 1.6 [get_ports out*]
set_false_path -from [get_keepers in] -through [get_nets r1] -to [get_keepers out]

# Check if there were any problems
check_timing -include {loops latches no_input_delay partial_input_delay}
Return Value Code Name Code String Return
TCL_OK 0 INFO: Operation successful