Unlike shooters, Naraka focuses on melee combat with fluid animations. The game is visually dense and supports DLSS, which is vital for high frame rates at resolutions above 1080p. An SSD is critical for map loading, and 16GB of RAM is recommended for smooth gameplay.
Actual FPS may vary based on RAM speed, background processes, and other system factors
Performance Report
At 1080p, all quality settings exceed 166 FPS, suitable for 144Hz+ monitors. At 1440p, all settings exceed 104 FPS. At 4K, frame rates range from 56 to 87 FPS.
The GeForce RTX 4090 is 279% above the recommended GPU (GeForce GTX 1060) for Naraka: Bladepoint. The Ryzen Embedded V2546 is 17% below recommended, but 122% above minimum.
The Ryzen Embedded V2546 sets the FPS ceiling at all 1080p settings, all 1440p settings, all 4k settings, while the GeForce RTX 4090 still has headroom.
Approximated average price on current market:
Combo price: $1949. At 1080p Ultra, this combo delivers 166 FPS, equivalent to 0.09 FPS per dollar.
| Resolution | Low | Medium | High | Ultra |
|---|---|---|---|---|
| 1080p | 0.136 fps/$ | 0.110 fps/$ | 0.096 fps/$ | 0.085 fps/$ |
| 1440p | 0.089 fps/$ | 0.073 fps/$ | 0.064 fps/$ | 0.053 fps/$ |
| 4k | 0.045 fps/$ | 0.037 fps/$ | 0.033 fps/$ | 0.029 fps/$ |
* Table values represent FPS per Dollar (higher is better)
This section is based on estimated CPU/GPU FPS ceilings, not utilization percentages.
At 4k medium, the Ryzen Embedded V2546 sets the ceiling at about 73 FPS, while the GeForce RTX 4090 could reach 155 FPS. In this scenario, the CPU limits the GPU potential by 53% (FPS gap: 82 FPS). Overall distribution: CPU limits 12/12 cells, GPU limits 0/12, balanced 0/12.
Your Ryzen Embedded V2546 is the limiting side in the heaviest mismatch. This means part of the GeForce RTX 4090 rendering potential remains unused in those settings.
| Resolution | Low | Medium | High | Ultra |
|---|---|---|---|---|
| 1080p (Full HD) | CPU Limits GPU 46% | CPU Limits GPU 51% | CPU Limits GPU 50% | CPU Limits GPU 46% |
| 1440p (2K QHD) | CPU Limits GPU 44% | CPU Limits GPU 52% | CPU Limits GPU 52% | CPU Limits GPU 49% |
| 4K (Ultra HD) | CPU Limits GPU 52% | CPU Limits GPU 53% | CPU Limits GPU 52% | CPU Limits GPU 53% |
We estimate the maximum FPS the processor can sustain and the maximum FPS the graphics card can sustain in each setting, then compare those limits directly.
Limit Factor formula: (stronger - weaker) / stronger. Example: if CPU ceiling is 200 FPS and GPU ceiling is 140 FPS, then GPU limits CPU by 30%.
CPU Limits GPU means the processor ceiling is lower. GPU Limits CPU means the graphics ceiling is lower. Balanced means the FPS ceilings are close enough that the gap is negligible.
A component can still be the FPS limiter without reaching 100% utilization. The displayed percentages are derived from FPS ceilings, not generic utilization heuristics.
| Resolution | Low | Medium | High | Ultra |
|---|---|---|---|---|
| 1080p (Full HD) | CPU77% - 96% <> GPU46% - 67% <> | CPU77% - 96% <> GPU46% - 67% <> | CPU45% - 67% <> GPU67% - 82% <> | CPU55% - 76% <> GPU67% - 82% <> |
| 1440p (2K QHD) | CPU76% - 94% <> GPU57% - 69% <> | CPU76% - 94% <> GPU57% - 69% <> | CPU43% - 65% <> GPU82% - 85% <> | CPU52% - 74% <> GPU81% - 85% <> |
| 4K (Ultra HD) | CPU75% - 84% <> GPU49% - 69% <> | CPU75% - 84% <> GPU49% - 69% <> | CPU40% - 55% <> GPU72% - 85% <> | CPU44% - 61% <> GPU71% - 85% <> |
The Ryzen Embedded V2546 + GeForce RTX 4090 pairing runs this title with CPU utilization between 40% and 96% and GPU utilization between 46% and 85%. Ryzen Embedded V2546 reaches high load in heavier scenarios, while GeForce RTX 4090 is utilized efficiently without persistent saturation. As resolution scales, average GPU load rises from 65% at 1080p to 69% at 4K, while CPU averages move from 74% to 65%.
From a utilization perspective, this is a CPU-heavy load profile. At 1080p (Full HD) Low, the Ryzen Embedded V2546 reaches 86% average load (77-96%), while the GeForce RTX 4090 remains comparatively lower at 56% (46-67%). This points to heavier CPU-side frame preparation work, but utilization alone does not define the FPS limiter.
At 1080p, averages sit around CPU 74% and GPU 65%. At 1440p, that shifts to CPU 72% and GPU 73%, and at 4K it reaches CPU 65% and GPU 69%. This shows that workload scaling is present on both components, with stronger pressure on the GPU.
1440p (2K QHD) High is the most balanced preset based on this dataset. It runs around CPU 54% (43-65%) and GPU 84% (82-85%), which keeps GeForce RTX 4090 well utilized without constant max-out behavior while Ryzen Embedded V2546 remains stable for consistent frame delivery.
Current utilization does not show an urgent upgrade requirement for either component; the Ryzen Embedded V2546 and GeForce RTX 4090 remain reasonably matched for this title.
Understanding Hardware Utilization: These percentages represent how much of your component's maximum processing power is actively being used during gameplay. They describe hardware load, but they do not directly tell you which component sets the FPS ceiling.
Important: a CPU or GPU can still be the FPS limiter without reaching 100% utilization. Two processors can both show 40% usage and still deliver very different frame rates, depending on per-core speed, cache, engine threading, driver overhead, and frame preparation efficiency.
Data generated by our Machine Learning engine trained on real-world benchmarks. Shows the approximate average utilization at each setting.
See how your processor and graphics card compare against the game official minimum and recommended system specs. The placement of your hardware is calculated using relative synthetic performance scores to help you gauge overall playability.
Your CPU is 17% below recommended and your GPU is 279% below recommended, but both meet minimum specs. Playable at Low/Medium settings, 1080p or below.
-17%vsrecommended
+279%vsrecommended
+122%vsminimum
+877%vsminimum
Yes, the Ryzen Embedded V2546 paired with the GeForce RTX 4090 can run Naraka: Bladepoint smoothly up to 1440p achieving around 104 FPS at Ultra quality. Your GPU is 279% above the recommended specs, and your CPU is 17% below the recommended requirements.
This CPU + GPU combo costs approximately $1949 ($300 CPU (Rank #375 Value) + $1649 GPU (Rank #77 Value)). Since the CPU is the main limiting factor, investing in a stronger processor will improve your framerates and overall value. For example, the Ryzen 9 9950X is a great upgrade option for around $649 (Rank #5 for value).
For Naraka: Bladepoint, upgrading the CPU would have the biggest impact on performance. The Ryzen Embedded V2546 is currently the limiting factor — the GeForce RTX 4090 has extra headroom that a faster processor could take advantage of. This is especially noticeable at 1080p where CPU performance matters more. CPU-limited at: 1080p low, 1080p medium, 1080p high, 1080p ultra, 1440p low, 1440p medium, 1440p high, 1440p ultra, 4k low, 4k medium, 4k high, 4k ultra.
Naraka: Bladepoint does not currently support Frame Generation technologies like DLSS 3 or FSR 3. Your performance is based entirely on native rendering. If the game adds support in a future update, newer GPUs will benefit the most.
Naraka: Bladepoint requires at minimum a Core i5-4460 (CPU) and GeForce GTX 750 Ti (GPU) with 8 GB RAM and 20 GB storage. For the recommended experience, you need a Core i7-7700 and GeForce GTX 1060 with 16 GB RAM. Your setup meets the minimum requirements but falls short of the recommended specs. You may need to lower some settings for smooth performance.
These Naraka: Bladepoint FPS results are not arbitrary numbers. They come from calculations informed by thousands of real gaming benchmarks, and the typical accuracy range is around 10% to 15%. That makes them far more useful than generic FPS calculators that simply invent values without a benchmark foundation. Actual in-game performance can still vary with drivers, updates, RAM configuration, cooling, and the exact scene being rendered.
Performance estimates are based on synthetic benchmarks and hardware capabilities.
Results may vary based on drivers, OS, and background processes.
