Frametime and latency performance
The charts below will show you graphics anomalies like stutters and glitches in a plotted chart. Frame time and pacing measurements.
- FPS mostly measures performance, the number of frames rendered per passing second.
- Frametime AKA Frame Experience recordings mostly measures and expose anomalies - here we look at how long it takes to render one frame. Measure that chronologically and you can see anomalies like peaks and dips in a plotted chart, indicating something could be off.
We have a detailed article (read here) on the methodology behind it all. Basically the time it takes to render one frame can be monitored and tagged with a number, this is latency. One frame can take say 17 ms. Higher latency can indicate a slow framerate, and weird latency spikes indicate a stutter, jitter, twitches; basically, anomalies that are visible on your monitor. What these measurements show are anomalies like small glitches and stutters that you can sometimes (and please do read that well, sometimes) see on screen. Below I'd like to run through a couple of titles with you. Bear in mind that Average FPS often matters more than frametime measurements.
Please understand that a lower frame time is a higher FPS, so for these charts, lower = better. Huge spikes would be stutters, thick lines would be bad frame pacing, and the graduate streamlining is framerate variation.
As you might have observed, we're experimenting a bit with our charts and methodology. Below the games at 3840x2160 (UHD), with image quality settings as used throughout this review. Please note that the result set below is based on the reference review and serves as an indication of the performance of cards in the same class.
The results overall are as good as can be expected.
Above: Hitman III
Above: Watch Dogs Legion
Above: Shadow of the Tomb Raider
Above: Assassins Creed: Valhalla
Above: Far Cry New Dawn
Above: Formula 1 2020 Codemasters
Above Resident Evil 7: Village
Above: Cyberpunk 2077