When building or upgrading a PC, selecting the right pairing of processor (CPU) and graphics card (GPU) is essential to maximize your performance per dollar. In this detailed analysis, we evaluate the synergy between the Intel Core Ultra 5 245K (a Tier 7 CPU) and the NVIDIA RTX 4090 (a Tier 10 GPU). The tier differential indicates how well-matched these components are, with larger gaps suggesting that one part will limit the other's potential depending on the software load.
At a standard 1080p resolution, the workload is split between components, but often leans heavily on processor throughput for frame preparation. With this specific combination, the analysis indicates a status of GPU Bottleneck with an efficiency rating of 100%. In practical gaming terms, you can expect an estimated average of 84 FPS in modern graphically intense AAA blockbusters, while competitive e-sports titles should run smoothly at around 269 FPS. If a CPU bottleneck is present here, it means the graphics card is capable of rendering faster than the CPU can feed it instructions.
Stepping up to 1440p resolution shifts a substantial portion of the computational burden onto the graphics processing unit. The number of pixels increases by 77%, making the GPU work significantly harder per frame while keeping the CPU load relatively stable. Here, the Intel Core Ultra 5 245K and NVIDIA RTX 4090 combination operates as CPU Bottleneck with an efficiency of 70%. Gaming averages are estimated at 84 FPS for AAA titles and 269 FPS for competitive multiplayer games. This resolution is often the sweet spot for modern mid-to-high tier hardware setups.
For ultrawide players using UWQHD resolution (3440x1440), the system renders 34% more horizontal space than standard 1440p. This increases the GPU workload while maintaining CPU overhead for logic and draw calls. At UWQHD, this pairing yields a status of Balanced and an efficiency rating of 100%. Modern games average 84 FPS in AAA settings and 269 FPS in E-sports.
In the extreme Super Ultrawide SUWQHD resolution (5120x1440), the rendering requirement almost doubles that of 1440p, approaching 4K level pixel counts. The GPU becomes the clear primary driver of performance. The engine rates this combination as with 100% efficiency. AAA benchmarks show around and E-sports competitive settings run at .