NVIDIA GeForce RTX 2080 Max-Q vs NVIDIA Quadro P6000

Compare NVIDIA GeForce RTX 2080 Max-Q 8 GB vs NVIDIA Quadro P6000 23 GB, specs and GPU benchmark score. Which is the better graphics card for the money?

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Specifications
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Benchmark Score

Overall Score

General gaming and workstation score

5387 points

6416 points

19% slightly better overall score

Flux Core frame rate

Volumetric ray casting test, a computationally expensive method of rendering high-quality scenes

124 FPS

126 FPS

2 FPS slightly higher Flux Core frame rate

Electron frame rate

Randomly generated noise sphere test

70 FPS

108 FPS

37 FPS significantly higher Electron frame rate

City frame rate

Procedurally generated city scene with voxel rendering

84 FPS

9 FPS slightly higher City frame rate

75 FPS

Clouds frame rate

Real-time noise calculation and ray marching test

56 FPS

83 FPS

27 FPS significantly higher Clouds frame rate

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Other Benchmarks

Blender score

Cycles Render (Samples per minute)

1574.05 points

101% significantly higher Blender score

782.92 points

Geekbench 5 (CUDA) score

CUDA compute benchmark

104025 points

119% significantly higher Geekbench 5 (CUDA) score

47462 points

Geekbench 5 (OpenCL) score

OpenCL compute benchmark

87150 points

55% significantly higher Geekbench 5 (OpenCL) score

56151 points

Geekbench 5 (Vulkan) score

Vulkan compute benchmark

65188 points

78125 points

19% slightly higher Geekbench 5 (Vulkan) score

Geekbench 6 (OpenCL) score

OpenCL compute benchmark

90092 points

40% slightly higher Geekbench 6 (OpenCL) score

64130 points

Geekbench 6 (Vulkan) score

Vulkan compute benchmark

82332 points

13% slightly higher Geekbench 6 (Vulkan) score

72621 points

Specifications

Core Clock Speed

Nominal chip frequency

735 MHz

1417 MHz

92% significantly higher core clock speed

Boost Clock Speed

Higher turbo frequency when power conditions are met

1095 MHz

1645 MHz

50% significantly higher boost clock speed

Memory

Onboard memory size for textures and vertices

8 GiB

23.44 GiB

192% significantly more memory

Memory Bus Width

Number of parallel lines to the memory chips

256 Bit

384 Bit

49% significantly larger memory bus width

Memory Bandwidth

Data transfer speed between GPU core and memory

384 GB/s

432.8 GB/s

12% slightly higher memory bandwidth

TDP

Thermal Design Power: Measure of heat generated by the GPU

90 W

177% significantly lower TDP

250 W

Pixel Rate

Number of pixels that can be rendered per second

70.08 Gigapixels/s

157.9 Gigapixels/s

125% significantly higher pixel rate

Texture Rate

Number of textured pixels that can be rendered per second

201.5 Gigatexels/s

394.8 Gigatexels/s

95% significantly higher texture rate

Floating Point Performance

Raw number of floating point operations per second

6.45 TFLOPS

12.63 TFLOPS

95% significantly better floating point performance

Shading Units

Number of processors dedicated to shader processing

2944

3840

30% slightly more shading units

Texture Mapping Units

Number of processors dedicated to applying textures

184

240

30% slightly more texture mapping units

Render Output Processors

Number of processors dedicated to final pixel rendering

49% significantly more render output processors

Other details

Rank

Ranking in the hardwareDB database

94th of 586

75th of 586

Release date

The official date of release of this chip

2019 January

2016 October

Memory Type

The type of memory used by this chip

GDDR6

GDDR5X

DirectX Support

Maximum version of DirectX supported

12.0

12.1

OpenGL Support

Maximum version of OpenGL supported

4.6

4.5

GeForce RTX 2080 Max-Q vs Quadro P6000 benchmarks

According to the hardwareDB Benchmark, the Quadro P6000 GPU is faster than the GeForce RTX 2080 Max-Q in gaming.

The Quadro P6000 has a significantly higher core clock speed. This is the frequency at which the graphics core is running at. While not necessarily an indicator of overall performance, this metric can be useful when comparing two GPUs based on the same architecture. In addition, the Quadro P6000 also has a significantly higher boost clock speed. The boost clock speed is the frequency that the GPU core can reach if the temperature is low enough. The allows for higher performance in certain scenarios.

Next up, in terms of GPU memory, the Quadro P6000 has significantly more memory with 23.44 GiB of memory compared to 8 GiB. Memory size doesn't directly affect performance, but too little memory will certainly degrade gaming performance.

In addition, the GeForce RTX 2080 Max-Q has a significantly lower TDP at 90 W when compared to the Quadro P6000 at 250 W. Heat output doesn't match power consumption directly but, it's a good estimate.

In conclusion, all specs and GPU benchmarks considered, will recommend the Quadro P6000 over the GeForce RTX 2080 Max-Q.