Altera ALTDQ_DQS2 Manual do Utilizador descarregar pdf (Página 74)

set_input_delay -clock {virtual_dqs_in} -min -add_delay -0.300

[get_ports{read_write_data_io[*]}]

set_input_delay -clock {virtual_dqs_in} -clock_fall -max -add_delay 0.300 [get_ports

{read_write_data_io[*]}]

set_input_delay -clock {virtual_dqs_in} -clock_fall -min -add_delay -0.300

[get_ports {read_write_data_io[*]}]

Figure 43:

Analyzing Same Edge Transfer

The following set_false_path commands ensure that you are analyzing only the same edge transfers, by

removing the opposite edge transfers.

Note:

These assignments are optional.

Example 2: set_false_path Commands

set_false_path -setup -rise_from [get_clocks {virtual_dqs_in}] -fall_to

[get_clocks {dqs_in}]

set_false_path -setup -fall_from [get_clocks {virtual_dqs_in}] -rise_to

[get_clocks {dqs_in}]

set_false_path -hold -rise_from [get_clocks {virtual_dqs_in}] -rise_to

[get_clocks {dqs_in}]

set_false_path -hold -fall_from [get_clocks {virtual_dqs_in}] -fall_to

[get_clocks {dqs_in}]

The default setup relationship is to latch data on the next edge. The following set_multicy-

cles_path commands direct the TimeQuest Timing Analyzer to analyze the paths as a same-edge

transfer, whereby the same edge that launches data is latched to it. The reason it is latched on the

same edge is that latch edge will be delayed by the DQS circuitry (67.5° in this design example)

into the middle of the data eye.

Analyzing Same Edge Transfer

UG-01089

2014.12.17

Altera Corporation

ALTDQ_DQS2 IP Core User Guide

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