G-SYNC 101: G-SYNC Ceiling vs. V-SYNC


Identical or Fraternal?

As described in G-SYNC 101: Range, G-SYNC doesn’t actually become double buffer V-SYNC above its range (nor does V-SYNC take over), but instead, G-SYNC mimics V-SYNC behavior when it can no longer adjust the refresh rate to the framerate. So, when G-SYNC hits or exceeds its ceiling, how close is it to behaving like standalone V-SYNC?

Blur Buster's G-SYNC 101: Input Latency & Optimal Settings
Blur Buster's G-SYNC 101: Input Latency & Optimal Settings
Blur Buster's G-SYNC 101: Input Latency & Optimal Settings
Blur Buster's G-SYNC 101: Input Latency & Optimal Settings
Blur Buster's G-SYNC 101: Input Latency & Optimal Settings
Blur Buster's G-SYNC 101: Input Latency & Optimal Settings

Pretty close. However, the G-SYNC numbers do show a reduction, mainly in the minimum and averages across refresh rates. Why? It boils down to how G-SYNC and V-SYNC behavior differ whenever the framerate falls (even for a moment) below the maximum refresh rate. With double buffer V-SYNC, a fixed frame delivery window is missed and the framerate is locked to half the refresh rate by a repeated frame, maintaining extra latency, whereas G-SYNC adjusts the refresh rate to the framerate in the same instance, eliminating latency.

As for “triple buffer” V-SYNC, while the subject won’t be delved into here due to the fact that G-SYNC is based on a double buffer, the name actually encompasses two entirely separate methods; the first should be considered “alt” triple buffer V-SYNC, and is the method featured in the majority of modern games. Unlike double buffer V-SYNC, it prevents the lock to half the refresh rate when the framerate falls below it, but in turn, adds 1 frame of delay over double buffer V-SYNC when the framerate exceeds the refresh rate; if double buffer adds 2-6 frames of delay, for instance, this method would add 3-7 frames.

“True” triple buffer V-SYNC, like “alt,” prevents the lock to half the refresh rate, but unlike “alt,” can actually reduce V-SYNC latency when the framerate exceeds the refresh rate. This “true” method is rarely used, and its availability, in part, can depend on the game engine’s API (OpenGL, DirectX, etc).

A form of this “true” method is implemented by the DWM (Desktop Window Manager) for borderless and windowed mode, and by Fast Sync, both of which will be explained in more detail further on.

Suffice to say, even at its worst, G-SYNC beats V-SYNC.



507 Comments For “G-SYNC 101”

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sleepynoodle
Member
sleepynoodle

Why do you think that basically no (to my understanding) cs:go pros use these settings or anything similar? Just regular settings with no capped FPS. Is it lack of knowledge or what do you think?

doodles
Member
doodles

Hey jorimt,

Just a quick question after reading your guide on G-sync + V-sync and input lag…

So I understand that if G-sync is used in combination with V-sync, it would essentially be forcing the computer to deliver steady frame timing over the period over a second (so for 144 Hz they would all be 6.9 ms versus the 144 frames averaging out to 6.9 ms). Also from what I understand, all of this discussion is related to changing these settings withing the NVIDIA control panel.

What does this mean with regards to in-game settings say for a game like Apex Legends or Modern Warfare? Do we have ENABLE V-sync within the individual games as well, to see the benefits from the G-sync + V-sync settings in the Control Panel? Or is doing so not necessary, and might cause other issues?

Vegetariano
Member
Vegetariano

Hello, jorimt.

This guide just rocks. I have just one question about the new Nvidia driver setting “Max Frame Rate”. From now on, I can set the maximum frame rate that the GPU will render a game directily in the driver.

Is there a difference in latency between set the max FPS at the driver new option or in the RTSS?

Thank you!

andregm3
Member
andregm3

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TheLonelyDevil
Member
TheLonelyDevil

>And while each frame is still rendered in 16.6ms, and delivered in intervals of 60 per second on the higher refresh rate display, they are scanned in at a much faster 6.9ms per.

Could you explain this line a bit more? In a 240 Hz 60 FPS CAP example, for instance?

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