The NVIDIA GeForce RTX 3060 delivers a volume shader benchmark score of 139 FPS on average, positioning it as a #4 ranked GPU in our global database. This represents a solid mainstream performance, balancing cost and capability for general purpose 3D applications. While it may not break records, it provides a reliable experience for 1080p gaming and standard productivity tasks.
In our rigorous stress testing, the NVIDIA GeForce RTX 3060 achieved a peak performance of 350 FPS. The benchmark utilizes complex Mandelbulb fractals to push the hardware's compute capabilities to the limit. This specific test emphasizes ALUs (Arithmetic Logic Units) and texture mapping units, simulating the intense mathematical load of modern ray tracing engines.With 12 GB of VRAM, this GPU is equipped to handle high-resolution volumetric textures and large aesthetic assets effectively. Memory bandwidth plays a crucial role here, as data must be streamed rapidly to the compute units to maintain high frame rates.
Compared to similar GPUs in the market, the NVIDIA GeForce RTX 3060 stands out for its specific support of NVIDIA-optimized rendering paths. Recent driver updates have likely contributed to the score stability we observe. Whether you are using it for professional 3D rendering, shader development, or high-fidelity gaming, our data suggests it belongs in the Top 67% of all tested hardware. For users looking to optimize their score further, we recommend overclocking the memory frequency slightly, as volume ray marching is often bandwidth-sensitive on this architecture.
Based on the volume shader benchmark score, here is how we estimate the NVIDIA GeForce RTX 3060 would perform in popular titles at 1440p High settings.(Estimates based on compute tier correlation)
๐กAnalysis: The NVIDIA GeForce RTX 3060 excels in compute-heavy scenarios. Titles utilizing modern DX12 Ultimate features or Vulkan APIs will likely see performance closer to the upper bounds of these estimates. For competitive shooters like Valorant or CS2, you can expect frame rates well in excess of the values shown here, likely saturating high-refresh-rate monitors.
The NVIDIA GeForce RTX 3060 leverages NVIDIA's mature CUDA computations pipeline. In our volume shader test, the efficiency of its streaming multiprocessors (SMs) directly correlates to the 139 FPS result. The architecture excels at parallelizing the ray marching steps required for volumetric fog rendering.
Volumetric rendering requires massive memory bandwidth. The 12 GB memory configuration of this card allows for uncompromised 4K texture streaming. Unlike rasterization which is geometry-bound, our ray marching test hits the memory controller hard, and this GPU's ability to sustain high frame rates proves its cache hierarchy is well-optimized.
Thermal Efficiency: Sitting in the sweet spot of performance-per-watt, the NVIDIA GeForce RTX 3060 delivers reliable frame rates without excessive thermal throttling. It represents a balanced thermal design ideal for compact builds.
Future Outlook: As game engines move towards fully dynamic global illumination, performance in compute-heavy benchmarks like this becomes a key predictor of longevity. This GPU remains highly relevant for current-gen DirectX 12 Ultimate titles.
Competing in the fierce mid-range segment, the NVIDIA GeForce RTX 3060 balances raw rasterization power with compute features. Compared to alternatives with similar theoretical TFLOPS, its real-world performance in our volume shader test shows it handles complex math effectively.
Run the benchmark and see how your NVIDIA GeForce RTX 3060 compares to others!
๐ Start Benchmark