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

Published Jun 20, 2017 by in: G-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.

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3849 Comments For “G-SYNC 101”

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ksydew
Member
ksydew

Sorry for posting so much but I have one last question, I just bought the acer Nitro XV275U F5BIIPPRX, it’s a free sync premium Pro monitor but isn’t g sync certified. It should still work with g sync no problem right? I have it turned on same usual settings, g sync indicator is working and on in the top right corner, but just want to make sure it’s fine? It seems like it is but I’m not the expert

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2 days 19 hours ago
jorimt
Author
jorimt

Assuming it allows you to enable G-SYNC on the Nvidia CP/App, the indicator is working, and the refresh rate meter on your monitor is visibly fluctuating in game, then yes.

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2 days 18 hours ago
ksydew
Member
ksydew

Okay I may have just figured out lol, but I looked online and someone said that nvidias drivers sometimes kick in LFC at 60fps and lower for some reason, so I capped to 65 and the OSD now reports 65 solid and barely moves/changes and when it does it’s only between 64/66. I wonder if this entire time on my old monitor I had lfc kicked on and never realized it because it didn’t have a OSD that reported its vrr. Either way it seems I’ll just have to move my fps cap to 65 from now on… so no biggie

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2 days 17 hours ago
jorimt
Author
jorimt

Yes, many monitor-side refresh rate meters include LFC multiples in their readings, and yes, many higher refresh rate monitors also start LFC at 60Hz, instead of ~30Hz or ~48Hz.

There’s typically no practical functional or latency difference between 60Hz non-LFCed VRR and 60Hz LFCed to 120Hz VRR, so capping to 65 FPS instead isn’t strictly necessary.

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2 days 16 hours ago
ksydew
Member
ksydew

For smoothness sake no difference either? I just do it for perfect frame pacing and also no tearing as well.

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2 days 16 hours ago
jorimt
Author
jorimt

Let’s say you’re using a 360Hz physical refresh rate (so something like 120Hz is still a low enough usable multiple):

  1. 60 FPS cap + VRR with LFC that starts at 60 = monitor refreshes 120 times per second, displaying each frame across two refresh cycles.
  2. 60 FPS cap + VRR with LFC that starts at 48 = monitor refresh 60 times per second, displaying each frame across one refresh cycle.

Again, it’s functionally the same; either way, with a 60 FPS cap, you’re getting 60 unique frames per second, with each frame scanning in at the physical refresh rate of the display (~2.8ms per at 360Hz, for instance).

So no, no difference in smoothness, tearing, or latency with otherwise identical settings.

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2 days 16 hours ago
ksydew
Member
ksydew

Sorry, one more question because I’m currently about to return a mini LED monitor I bought yesterday because it has severe inverse ghosting and I’ve been too afraid to try an OLED because of VRR flicker. I think I’m going to give the new Samsung budget OLED that recently released a try. Do you have any insight on how to avoid the flickering? I have a really powerful CPU and I’m hoping that if I kept my FPS to 60 or 65 with stable frame rates and frame times I won’t get any flickering.

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1 day 21 hours ago
jorimt
Author
jorimt

I’ve explained this before, so I’ll just re-quote one of my previous comments (with some adjustments) below:
 

The amount of OLED VRR flicker is directly tied to frametime performance; the steadier it is, the less the flicker, and visa-versa.

This happens because each variable “Hz/frame” in VRR mode has a slightly different gamma response on OLED in VRR mode (I.E. 60 Hz/FPS gamma can be a tad more washed out vs. 120 Hz/FPS at a physical 240Hz refresh rate, and so on), thus rapid and/or sudden framerate fluctuation makes the gamma differences between them more obvious.

An RTSS limit set to an achievable average framerate will allow the steadiest frametime performance in most cases, but any frametime spikes will still make VRR flicker more evident, especially in darker scenes.

So while you can increase average frametime consistency with an RTSS limit, which will reduce general VRR flicker, there’s no escaping the VRR flicker that occurs on OLED in games with frequent and/or recurring frametime spikes.

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1 day 21 hours ago
ksydew
Member
ksydew

Yes to all of that but here is a bit of a tricky thing, and I know you’ve said previously not to count on the monitor OSD to report correctly, but if I cap my fps to 60 the monitor will report it as refreshing at 120hz, but if I cap my fps to 75 it will report it at 75 hz in the OSD. So im a bit confused on if for some reason it’s doubling the refresh rate at 60 for some reason?

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2 days 17 hours ago
ksydew
Member
ksydew

With the newest drivers nvidia has now gotten rid of the nvidia control panel. Does this change anything for how to implement g sync? Has it changed any behavior to your knowledge? I keep g sync on, v sync on and use a frame rate limiter of RTSS. I also use v sync globally. I just had to use DDU due to sudden instability after installing the newest drivers and that’s when I found out nvcp was missing.

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15 days 19 hours ago
jorimt
Author
jorimt

With the newest drivers nvidia has now gotten rid of the nvidia control panel. Does this change anything for how to implement g sync? Has it changed any behavior to your knowledge?

No and no; nothing has changed regarding optimal G-SYNC configuration with the removal of the legacy Nvidia control panel.

I believe it can still be installed separately via the Microsoft Store, but whether that will change in the future is the question.

Quite honestly, I, and probably many others, hadn’t been using it directly for a very long time now; I predominately use Nvidia Inspector instead, myself, especially for per-profile settings.

I will eventually update the screen captures and descriptions in https://blurbusters.com/gsync/gsync101-input-lag-tests-and-settings/ to include the Nvidia App settings locations as well.

I keep g sync on, v sync on and use a frame rate limiter of RTSS. I also use v sync globally.

Your settings are generally good, though it’s better to enable V-SYNC per app vs. globally to avoid any potential quirks, especially with MPO. See the linked comment plus mine below it:
https://forums.blurbusters.com/viewtopic.php?f=5&t=14525&p=115608&hilit=global+v+sync#p115486

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15 days 18 hours ago
ksydew
Member
ksydew

Thank you I’m doing it per app now.

A random question kind of off topic, besides obviously having more available frames, is there any major downside to the fact that I cap most of my games to 60 fps? (I mean single player AAA games) when I could be getting higher fps? I’ve noticed in most of my games I play if I use a 60 fps cap my experience is largely stutter free, compared to uncapped which is a stutter fest or a higher fps cap which can still have significantly more stutter compared to a relatively conservative fps cap that I do. All of my games feel responsive and fluid, but I’ve always wondered if I’m adding a ton of input lag or since my gpu utilization is always in the 50-60 percentage range if it causes any issues I’m not aware of

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6 days 17 hours ago
jorimt
Author
jorimt

is there any major downside to the fact that I cap most of my games to 60 fps? (I mean single player AAA games) when I could be getting higher fps?

The primary “downside” is that lower average frametime = less frames per second = less overall fluidity due to less updates per second (assuming refresh rate is at/above framerate), but actual input latency separate of framerate should remain the same in isolation, assuming all other factors are otherwise identical (though the aforementioned lower framerate will still technically result in more overall latency on top of it, due, again, to less updates per second).

I’ve noticed in most of my games I play if I use a 60 fps cap my experience is largely stutter free, compared to uncapped which is a stutter fest or a higher fps cap which can still have significantly more stutter compared to a relatively conservative fps cap

This depends entirely on the capability of the system and even the given game on said system; the less the system is capable of running a higher average framerate, the more sporadic the frametime performance will be at a higher average framerate vs. a lower average framerate, simple as that.

All of my games feel responsive and fluid, but I’ve always wondered if I’m adding a ton of input lag or since my gpu utilization is always in the 50-60 percentage range if it causes any issues I’m not aware of

<99% GPU usage reduces render queue-level latency vs. 99%+ GPU usage, so <99% GPU usage is always better than not, regardless of the average framerate in question.

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6 days 16 hours ago
Flop
Member
Flop

What’s the best way to go about using both technologies? My main game is CS2, where i use Fixed Refresh. I want to use G-SYNC in pretty much every other game though. It seems that in order to do this, i have to enable G-SYNC in the global settings, then set CS2 to Fixed Refresh in Program settings. I would rather do this the other way around though (though it doesn’t work) since I play CS2 most of the time, and the long alt-tab times are annoying (unless there is a way to fix them) due to the game not using G-SYNC, while the rest of the operating system operates with G-SYNC.

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29 days 12 hours ago
jorimt
Author
jorimt

There’s never been an official, let alone “best” way, but you can try this:
https://forums.blurbusters.com/viewtopic.php?t=10062#p108432

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29 days 1 hour ago
Flop
Member
Flop

Thanks, it still works.

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28 days 23 hours ago
tearxinnuan
Member
tearxinnuan

I have a new question. I have two monitors, both of which support G-SYNC. However, I only use one screen for full-screen gaming, while the other is used for watching videos and browsing the web in extended screen mode. I’d like to ask if both monitors need to have G-SYNC enabled simultaneously? Their refresh rates are also different. I only want the primary gaming screen to perform at its best, so will the setup for both monitors be relevant? Looking forward to your answer.

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1 month 5 days ago
jorimt
Author
jorimt

Assuming the VRR enabled primary monitor’s window is focused during gaming, there shouldn’t be an issue with the secondary monitor having VRR disabled, barring the usual multi-monitor quirks.

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29 days 1 hour ago
jPqQhMkV1b2fwm27ri07e0cZs64e42aLXE4w0cUiOlUl7kIwid
Member
jPqQhMkV1b2fwm27ri07e0cZs64e42aLXE4w0cUiOlUl7kIwid

Can I run Maxwell-era (GTX 970) GPUs in SLI mode with native GSYNC? I have read conflicting/contradicting reports. Some of them mention performance drop in SLI + GSYNC mode. I have even found an opinion that GSYNC does not work properly with SLI due to the fact that GSYNC wasn’t designed with SLI in mind. Do you have any knowledge in this regard?

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1 month 6 days ago
jorimt
Author
jorimt

My G-SYNC testing did not include SLI scenarios, and I also have never personally used SLI, so I can’t speak to that particular aspect in detail, but I believe it’s possible. How well it would work is another question.

As to whether G-SYNC will work with a GTX 970, yes, on a G-SYNC monitor containing a module, it will (the GTX 10 series is needed for use with G-SYNC Compatible FreeSync monitors without modules).

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1 month 6 days ago
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