A popular insured YouTuber known online as a prominent figure in gaming, 3kliksphilip, demonstrated how he pushed CS:GO into astonishing frame-rate territory using a very powerful PC setup. The video explored achieving an extreme frame rate by dialing back the game’s graphics and resolution to a modest 720p, revealing how hardware headroom translates into perceptible performance gains in single-player scenarios.
During the experiment, the frame counter hovered above 4000 FPS at peak settings. This was not a realistic daily gaming scenario but a demonstration of what modern hardware can push when every setting is minimized and the resolution is reduced. In such conditions, faster frame delivery can make on-screen motion appear smoother, though the practical impact is largely limited to synthetic or controlled demonstrations rather than standard gameplay.
For reference, the video illustrated an average frame rate of around 1300 FPS on low settings, while high settings yielded approximately 981 FPS. These figures illustrate the wide gap between extreme low and more balanced presets when evaluating raw FPS, and they underscore how much the rendering pipeline can be stressed under different configurations.
Regarding the hardware, the demonstration relied on a high-end build featuring an Intel Core i9 13900K processor, a GeForce RTX 4090 graphics card, and 64 GB of DDR5 memory running at 5600 MHz. Such a configuration is well beyond typical consumer needs for casual CS:GO play, but it serves to spotlight the headroom available in current generations of GPUs and CPUs for enthusiasts who push settings to the limit.
Even with extraordinarily high frame rates in controlled tests, online play introduces extra variables. CS:GO servers routinely regulate movement speed and hit-detection across players, dampening any advantage that a large FPS number might imply. The online environment thus remains a separate performance dimension, driven by server tick rates and network latency rather than purely by a player’s local frame delivery.
Historically, the community has experimented with fast-paced, arcade-inspired modes that resemble racing or cyberpunk-inspired settings, where rapid perception and reaction times are part of the appeal. In these explorations, players have sometimes embraced creative, speculative visuals that emphasize speed and agility rather than realistic simulation. The takeaway remains consistent: raw FPS alone does not determine the quality of competitive play; consistency, latency, and system stability play critical roles.
In summary, the extraordinary FPS shown in the demonstration highlights the potential of modern hardware to push the boundaries of graphical performance. It also serves as a reminder that for everyday online play, factors such as server performance and network conditions largely shape the actual gaming experience. The demonstration stands as a technical curiosity rather than a guide to improving ordinary CS:GO performance, offering a snapshot of what is technically possible when pushing hardware to its extreme capabilities. [citation: VG Times]