Frametime Analysis

We present a more in-depth analysis than just average FPS to show how the framerate changes over time, which helps highlight FPS drops. Minimum FPS at both the 95th and 99th percentile are reported in these charts, too. A second chart, a histogram, shows shape and spread for the frametime data—how tightly grouped the measurements are. The "IQR" result is called "Interquartile Range," which is an outlier-resistant statistical value that tells us the range in the middle of the frametime distribution.

In the following charts, we are comparing two retail memory kits. By doing so, the game benchmarks reveal where the limits lie in a top of the line Intel computer for 2024. For both memory kits, XMP is loaded and all sub-timings are based on the individual XMP profile. These are not adjusted further.

Tests are conducted with the following components:
CPU: Intel Core i9-13900K (Locked P-core 5.5 GHz, E-cores 4.3 GHz)
GPU: PNY GeForce RTX 4090 XLR8 VERTO
Memory (1): Kingston Fury Renegade RGB LE DDR5-8000 KF580C36RLAK2-48 (36-48-48-128-176) (XMP)
Memory (1): DDR5-7200 32 GB (34-42-42-84-117) (XMP)






Counter-Strike 2 directly benefits from higher bandwidth on the Intel platform and is not greatly impacted by high latency for its average frame rates. However, there are exceptions to the norm. The 95th and 99th percentiles will benefit from lower latency. Here we see this Kingston Fury Renegade RGB LE DDR5-8000 kit once again behind DDR5-6400 due to the looser secondary timings in the XMP profile.






As we raise the resolution to 2560x1440, the average frame rates, and 95th and 99th percentiles for all the memory speeds decreases, but there is still a distinct measurable frame-rate difference with between this Kingston Fury Renegade RGB LE DDR5-8000 kit, albeit much smaller than before.






Lastly, at 4K, we start to become GPU-bound, putting all the memory kits within margin of error.