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 6000 MT/s memory kits. The sub-timings are based on the individual EXPO profiles and are not adjusted further. By doing so, these charts represent a direct comparison between two retail 32 GB (2x 16 GB) AMD EXPO memory kits.

Tests are conducted with the following components:
CPU: AMD Ryzen 9 7950X (Locked All-Core 5.2 GHz)
GPU: PNY GeForce RTX 4090 XLR8 VERTO
Memory (1): G.SKILL DDR5-6000 F5-6000J3038F16GX2-TZ5N (30-38-38-96)
Memory (2): Team Group DDR5-6000 FF7D532G6000HC38ADC01 (38-38-38-78)




Comparing both of these memory kits with low graphical settings helps to illustrate how sensitive AMD is to memory frequency and overall timings. It can affect the average frame-rate and the 1% lows.




Increase the graphical settings; depending on the game, this may be enough to once again be GPU bound and relay on the graphics card. Here, the average frame-rate gap decreases from 6.4% to 5.4% between the two kits.




Once again, raising the game's resolution in Cyberpunk 2077 to 4K and the game becomes completely GPU bound, leaving the CPU often waiting on the graphics card to finish each calculation. With a margin of error of 3%, these two memory kits are indistinguishable at this resolution using an RTX 4090.