DCLK Feedback Delay
Common Options : 0 ps, 150 ps, 300 ps, 450 ps, 600 ps, 750 ps, 900 ps, 1050 ps
Quick Review of DCLK Feedback Delay
DCLK is the clock signal sent by the SDRAM controller to the clock buffer of the SDRAM module. The SDRAM module will send back a feedback signal via DCLKFB or DCLKWR.
By comparing the wave forms from both DCLK and its feedback signal, it can be determined if both clocks are in the same phase. If the clocks are not in the same phase, this may result in loss of data, resulting in system instability.
The DCLK Feedback Delay BIOS feature allows you to fine-tune the DCLK-DLCK feedback phase alignment.
By default, it’s set to 0 ps or no delay.
If the clocks are not in phase, you can add appropriate amounts of delay (in picoseconds) to the DLCK feedback signal until both signals are in the same phase. Just increase the amount of delay until the system is stable.
However, if you are not experiencing any stability issues, it’s highly recommended that you leave the delay at 0 ps. There’s no performance advantage is increasing or reducing the amount of feedback delay.
Details of DCLK Feedback Delay
DCLK is the clock signal sent by the SDRAM controller to the clock buffer of the SDRAM module. The SDRAM module will send back a feedback signal via DCLKFB or DCLKWR.
This feedback signal is used by the SDRAM controller to determine when it can write data to the SDRAM module. The main idea of this system is to ensure that both clock phases are properly aligned for the proper delivery of data.
By comparing the wave forms from both DCLK and its feedback signal, it can be determined if both clocks are in the same phase. If the clocks are not in the same phase, this may result in loss of data, resulting in system instability.
[adrotate group=”2″]The DCLK Feedback Delay BIOS feature allows you to fine-tune the DCLK-DLCK feedback phase alignment.
By default, it’s set to 0 ps or no delay.
If the clocks are not in phase, you can add appropriate amounts of delay (in picoseconds) to the DLCK feedback signal until both signals are in the same phase. Just increase the amount of delay until the system is stable.
However, if you are not experiencing any stability issues, it’s highly recommended that you leave the delay at 0 ps. There’s no performance advantage is increasing or reducing the amount of feedback delay.
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