EVGA RTX 2060 SUPER XC GAMING vs NVIDIA GeForce RTX 2060 Super
Theoretical performance comparison
Real-world game, 3D graphics and compute performance depends on several GPU parameters, including texture fillrate, pixel fillrate, memory bandwidth, single-precision performance and double-precision performance. Below you will find why they are important, and which card has better characteristics.
Pixel fill rate (gigapixels/s)
200 160 120 80 40 0 |
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Higher is better
Since two GPUs have the same number of ROPs (Raster Operations Pipelines) and the EVGA RTX 2060 SUPER XC GAMING is clocked a bit higher, its pixel fillrate is insignificantly higher. Better pixel fill rate allows more pixels to be drawn on screen per second, and is an indication of better graphics card performance, unless the GPU is limited by something else, such as memory bandwidth or texture mapping.
- EVGA RTX 2060 SUPER XC GAMING
- NVIDIA GeForce RTX 2060 Super
Texture fill rate (gigatexels/s)
300 240 180 120 60 0 |
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Higher is better
Another important parameter, that affects overall graphics card performance, is texture fillrate. This parameter is calculated as the number of TMUs (Texture Mapping Units), multiplied by graphics clock. The RTX 2060 SUPER XC GAMING has a insignificant advantage here, as it runs at a bit higher frequency, and both cards have identical number of TMUs. Better maximum texture fill rate means that the graphics card can utilize more complex 3D effects and/or apply more textures to each textured picture element, which improves games visual appearance.
Single Precision performance (GFLOPS)
9000 7200 5400 3600 1800 0 |
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Higher is better
Single Precision performance, measured in GFLOPS or billions of Floating Point Operations Per Second, shows how good the GPU is at executing applications, that process primarily single-precision floating point data. Since FP calculations are performed by shaders, stream processors or CUDA cores, the performance is directly proportional to their number. Processor clock rate also influences it. The RTX 2060 SUPER XC GAMING graphics unit is insignificantly faster here. Higher single-precision performance number means the graphics card will perform better in general computing applications. Since CUDA cores or stream processors are also used as vertex and geometry shaders for 3D image generation, higher performance is also beneficial to games.
Double Precision performance (GFLOPS)
300 240 180 120 60 0 |
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Higher is better
Maximum Double Precision performance is similar to the Single Precision performance, except that it applies to double-precision (64-bit) floating point operations. Games do not use double-precision arithmetics, therefore this characteristic is unimportant to their performance. The RTX 2060 SUPER XC GAMING has an edge here.
- EVGA RTX 2060 SUPER XC GAMING
- NVIDIA GeForce RTX 2060 Super
Memory bandwidth (GB/s)
500 400 300 200 100 0 |
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Higher is better
Memory bandwidth of both GPUs is identical.
Specs comparison
All rows with different specifications or features are highlighted.
General information | ||
| Market segment | Desktop | |
| Manufacturer | EVGA | NVIDIA |
| Model | RTX 2060 SUPER XC GAMING | GeForce RTX 2060 Super |
| Part number | 08G-P4-3162- | |
| Based on | NVIDIA GeForce RTX 2060 Super | N/A |
Architecture / Interface | ||
| Die name | ||
| Architecture | ||
| Fabrication process | ||
| Bus interface | ||
Cores / shaders | ||
| CUDA cores | ||
| ROPs | ||
| Pixel fill rate | ||
| Texture units | ||
| Texture fill rate | ||
| Single Precision performance | ||
| Double Precision performance | ||
Clocks / Memory | ||
| Base clock | 1470 MHz | |
| Boost clock | ||
| Memory size | 8192 MB | |
| Memory type | GDDR6 | |
| Memory clock | ||
| Memory interface width | ||
| Memory bandwidth | ||
Other features | ||
| Maximum power | ||
Better values / features are marked with green color, and worse values are in red color.
Detailed specifications:
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