NVIDIA GeForce GTX 1050 Ti vs NVIDIA Quadro 4000

Compare NVIDIA GeForce GTX 1050 Ti 4 GB vs NVIDIA Quadro 4000, specs and GPU benchmark score. Which is the better graphics card for the money?

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Price

The cheapest price from our partner retailers

$ 210
$ 138
$ 71.91 significantly less expensive

Benchmark Score

Overall Score

General gaming and workstation score

25 %
525% significantly better overall score
4 %

Flux Core frame rate

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

29 FPS
25 FPS significantly higher Flux Core frame rate
4 FPS

Electron frame rate

Randomly generated noise sphere test

21 FPS
18 FPS significantly higher Electron frame rate
3 FPS

City frame rate

Procedurally generated city scene with voxel rendering

21 FPS
17 FPS significantly higher City frame rate
3 FPS

Clouds frame rate

Real-time noise calculation and ray marching test

17 FPS
15 FPS significantly higher Clouds frame rate
1 FPS

Free GPU Benchmark

Want to compare your graphics card against the GeForce GTX 1050 Ti and the Quadro 4000? Download our free and quick PC Performance Test.

Other Benchmarks

Geekbench (OpenCL) score

OpenCL compute benchmark

22,192
430% significantly higher Geekbench (OpenCL) score
4,183

Specifications

Memory Bus Width

Number of parallel lines to the memory chips

128 Bit
256 Bit
100% significantly larger memory bus width

Memory Bandwidth

Data transfer speed between GPU core and memory

112 GB/s
24% slightly higher memory bandwidth
90 GB/s

TDP

Thermal Design Power: Measure of heat generated by the GPU

75 W
89% significantly lower TDP
142 W

Pixel Rate

Number of pixels that can be rendered per second

45 Gigapixels/s
486% significantly higher pixel rate
8 Gigapixels/s

Texture Rate

Number of textured pixels that can be rendered per second

67 Gigatexels/s
339% significantly higher texture rate
15 Gigatexels/s

Shading Units

Number of processors dedicated to shader processing

768
200% significantly more shading units
256

Texture Mapping Units

Number of processors dedicated to applying textures

48
49% significantly more texture mapping units
32

Render Output Processors

Number of processors dedicated to final pixel rendering

32
Identical
32

Other details

Rank

Ranking in the hardwareDB database

147th of 526
377th of 526

Release date

The official date of release of this chip

October 2016
-

Memory Type

The type of memory used by this chip

GDDR5
GDDR5

DirectX Support

Maximum version of DirectX supported

12.0
12.0

OpenGL Support

Maximum version of OpenGL supported

4.5
4.6

GeForce GTX 1050 Ti vs Quadro 4000 comparison

In our benchmarks, the GeForce GTX 1050 Ti beats the Quadro 4000 in gaming performance.

In addition, the GeForce GTX 1050 Ti has a significantly lower TDP at 75 W when compared to the Quadro 4000 at 142 W. Heat output doesn't match power consumption directly but, it's a good estimate.

According to the results of the hardwareDB benchmark utility, the GeForce GTX 1050 Ti is faster than the Quadro 4000.

GPU comparison

Use the table to the left to compare both GPUs, the advantages and disadvantages of each are shown.

GPU rating

Our overall benchmark score measures CPU performance in gaming and compute scenarios.

Graphics card specifications

Core Clock speed and Boost clock speed directly influence gaming performance, typically the higher, the better. When thermals and power delivery allow, the GPU will raise its core clock to the boost clock for even more performance. A higher core clock speed may cause a higher TDP, however.

Memory is important for high resolutions and high resolution textures in games, if you're gaming at 4K or even 8K lots of memory is required. Too little memory may result in stuttering as the GPU tries to swap and fit everything in memory.

Memory bandwidth relates to the speed at which the GPU memory can be accessed. Higher speed is better as the graphics card won't need to wait for memory access before rendering a frame to the screen.

The memory bus width doesn't directly impact performance but, it the memory bandwidth. It measures how much data can be sent at one to and from the memory.

TDP (Thermal Design Power) is a measurement of how much energy is lost as heat when a GPU is running. This has an impact on system temperatures. If temperatures get too high (typically around 100 °C or 200 °F), the GPU will lower its performance in order to prevent damage to the chip. Adequate cooling is essential for good performance. If you're comparing two laptop GPUs, you may take this into account when choosing between the two, since a cooler laptop generally runs faster for longer.

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