NVIDIA GeForce 940M vs NVIDIA GeForce GTX 750 Ti
Comparative analysis of NVIDIA GeForce 940M and NVIDIA GeForce GTX 750 Ti videocards for all known characteristics in the following categories: Essentials, Technical info, Video outputs and ports, Compatibility, dimensions and requirements, API support, Memory, Technologies.
Benchmark videocards performance analysis: PassMark — G3D Mark, PassMark — G2D Mark, Geekbench — OpenCL, CompuBench 1.5 Desktop — Face Detection (mPixels/s), CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s), CompuBench 1.5 Desktop — T-Rex (Frames/s), CompuBench 1.5 Desktop — Video Composition (Frames/s), CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s), GFXBench 4.0 — Car Chase Offscreen (Frames), GFXBench 4.0 — Manhattan (Frames), GFXBench 4.0 — T-Rex (Frames), GFXBench 4.0 — Car Chase Offscreen (Fps), GFXBench 4.0 — Manhattan (Fps), GFXBench 4.0 — T-Rex (Fps), 3DMark Fire Strike — Graphics Score.
NVIDIA GeForce 940M
Buy on Amazon
vs
NVIDIA GeForce GTX 750 Ti
Buy on Amazon
Differences
Reasons to consider the NVIDIA GeForce 940M
- Videocard is newer: launch date 1 year(s) 0 month(s) later
- Around 5% higher core clock speed: 1072 MHz vs 1020 MHz
- Around 8% higher boost clock speed: 1176 MHz vs 1085 MHz
- Around 82% lower typical power consumption: 33 Watt vs 60 Watt
- 360x more memory clock speed: 1800 MHz vs 5. 4 GB/s
- Around 1% better performance in GFXBench 4.0 — T-Rex (Frames): 3357 vs 3329
- Around 1% better performance in GFXBench 4.0 — T-Rex (Fps): 3357 vs 3329
Launch date | 13 March 2015 vs 18 February 2014 |
Core clock speed | 1072 MHz vs 1020 MHz |
Boost clock speed | 1176 MHz vs 1085 MHz |
Thermal Design Power (TDP) | 33 Watt vs 60 Watt |
Memory clock speed | 1800 MHz vs 5.4 GB/s |
GFXBench 4.0 — T-Rex (Frames) | 3357 vs 3329 |
GFXBench 4. 0 — T-Rex (Fps) | 3357 vs 3329 |
Reasons to consider the NVIDIA GeForce GTX 750 Ti
- Around 54% higher texture fill rate: 43.4 GTexel / s vs 28.22 GTexel / s
- Around 67% higher pipelines: 640 vs 384
- Around 54% better floating-point performance: 1,389 gflops vs 903.2 gflops
- 3.5x better performance in PassMark — G3D Mark: 3911 vs 1112
- 3.3x better performance in PassMark — G2D Mark: 501 vs 153
- 2.1x better performance in Geekbench — OpenCL: 12753 vs 5994
- Around 65% better performance in CompuBench 1.5 Desktop — Face Detection (mPixels/s): 42.463 vs 25.695
- 3.8x better performance in CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s): 642.715 vs 168.449
- 2.2x better performance in CompuBench 1.5 Desktop — T-Rex (Frames/s): 2.933 vs 1.307
- Around 22% better performance in CompuBench 1.5 Desktop — Video Composition (Frames/s): 26. 532 vs 21.837
- Around 32% better performance in CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s): 133.458 vs 101.399
- 2.3x better performance in GFXBench 4.0 — Car Chase Offscreen (Frames): 4843 vs 2132
- Around 20% better performance in GFXBench 4.0 — Manhattan (Frames): 3683 vs 3065
- 2.3x better performance in GFXBench 4.0 — Car Chase Offscreen (Fps): 4843 vs 2132
- Around 20% better performance in GFXBench 4.0 — Manhattan (Fps): 3683 vs 3065
- 2.5x better performance in 3DMark Fire Strike — Graphics Score: 1278 vs 506
Texture fill rate | 43.4 GTexel / s vs 28.22 GTexel / s |
Pipelines | 640 vs 384 |
Floating-point performance | 1,389 gflops vs 903.2 gflops |
PassMark — G3D Mark | 3911 vs 1112 |
PassMark — G2D Mark | 501 vs 153 |
Geekbench — OpenCL | 12753 vs 5994 |
CompuBench 1. 5 Desktop — Face Detection (mPixels/s) | 42.463 vs 25.695 |
CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s) | 642.715 vs 168.449 |
CompuBench 1.5 Desktop — T-Rex (Frames/s) | 2.933 vs 1.307 |
CompuBench 1.5 Desktop — Video Composition (Frames/s) | 26.532 vs 21.837 |
CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s) | 133.458 vs 101.399 |
GFXBench 4.0 — Car Chase Offscreen (Frames) | 4843 vs 2132 |
GFXBench 4.0 — Manhattan (Frames) | 3683 vs 3065 |
GFXBench 4. 0 — Car Chase Offscreen (Fps) | 4843 vs 2132 |
GFXBench 4.0 — Manhattan (Fps) | 3683 vs 3065 |
3DMark Fire Strike — Graphics Score | 1278 vs 506 |
Compare benchmarks
GPU 1: NVIDIA GeForce 940M
GPU 2: NVIDIA GeForce GTX 750 Ti
PassMark — G3D Mark |
|
|
||||
PassMark — G2D Mark |
|
|
||||
Geekbench — OpenCL |
|
|
||||
CompuBench 1. 5 Desktop — Face Detection (mPixels/s) |
|
|
||||
CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s) |
|
|
||||
CompuBench 1.5 Desktop — T-Rex (Frames/s) |
|
|
||||
CompuBench 1. 5 Desktop — Video Composition (Frames/s) |
|
|
||||
CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s) |
|
|
||||
GFXBench 4.0 — Car Chase Offscreen (Frames) |
|
|
||||
GFXBench 4. 0 — Manhattan (Frames) |
|
|
||||
GFXBench 4.0 — T-Rex (Frames) |
|
|
||||
GFXBench 4.0 — Car Chase Offscreen (Fps) |
|
|
||||
GFXBench 4. 0 — Manhattan (Fps) |
|
|
||||
GFXBench 4.0 — T-Rex (Fps) |
|
|
||||
3DMark Fire Strike — Graphics Score |
|
|
Name | NVIDIA GeForce 940M | NVIDIA GeForce GTX 750 Ti |
---|---|---|
PassMark — G3D Mark | 1112 | 3911 |
PassMark — G2D Mark | 153 | 501 |
Geekbench — OpenCL | 5994 | 12753 |
CompuBench 1. 5 Desktop — Face Detection (mPixels/s) | 25.695 | 42.463 |
CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s) | 168.449 | 642.715 |
CompuBench 1.5 Desktop — T-Rex (Frames/s) | 1.307 | 2.933 |
CompuBench 1.5 Desktop — Video Composition (Frames/s) | 21.837 | 26.532 |
CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s) | 101.399 | 133.458 |
GFXBench 4.0 — Car Chase Offscreen (Frames) | 2132 | 4843 |
GFXBench 4. 0 — Manhattan (Frames) | 3065 | 3683 |
GFXBench 4.0 — T-Rex (Frames) | 3357 | 3329 |
GFXBench 4.0 — Car Chase Offscreen (Fps) | 2132 | 4843 |
GFXBench 4.0 — Manhattan (Fps) | 3065 | 3683 |
GFXBench 4.0 — T-Rex (Fps) | 3357 | 3329 |
3DMark Fire Strike — Graphics Score | 506 | 1278 |
Compare specifications (specs)
NVIDIA GeForce 940M | NVIDIA GeForce GTX 750 Ti | |
---|---|---|
Architecture | Maxwell | Maxwell |
Code name | GM108 | GM107 |
Launch date | 13 March 2015 | 18 February 2014 |
Place in performance rating | 1110 | 593 |
Type | Laptop | Desktop |
Launch price (MSRP) | $149 | |
Price now | $299. 01 | |
Value for money (0-100) | 15.02 | |
Boost clock speed | 1176 MHz | 1085 MHz |
Core clock speed | 1072 MHz | 1020 MHz |
Floating-point performance | 903.2 gflops | 1,389 gflops |
Manufacturing process technology | 28 nm | 28 nm |
Pipelines | 384 | 640 |
Texture fill rate | 28. 22 GTexel / s | 43.4 GTexel / s |
Thermal Design Power (TDP) | 33 Watt | 60 Watt |
Transistor count | 1,870 million | 1,870 million |
CUDA cores | 640 | |
Display Connectors | No outputs | 2x DVI, 1x mini-HDMI, One Dual Link DVI-I, One Dual Link DVI-D, One mini… |
Audio input for HDMI | Internal | |
G-SYNC support | ||
HDCP | ||
HDMI | ||
Maximum VGA resolution | 2048×1536 | |
Multi monitor support | ||
Bus support | PCI Express 3. 0 | PCI Express 3.0 |
Interface | PCIe 3.0 x8 | PCIe 3.0 x16 |
Laptop size | medium sized | |
Height | 4.376″ (11.1 cm) | |
Length | 5.7″ (14.5 cm) | |
Supplementary power connectors | None | |
DirectX | 12.0 (11_0) | 12.0 (11_0) |
OpenGL | 4. 5 | 4.4 |
Maximum RAM amount | 2 GB | 2 GB |
Memory bandwidth | 14.4 GB / s | 86.4 GB / s |
Memory bus width | 64 Bit | 128 Bit |
Memory clock speed | 1800 MHz | 5.4 GB/s |
Memory type | DDR3 | GDDR5 |
Shared memory | 0 | 0 |
CUDA | ||
GameWorks | ||
GeForce Experience | ||
GPU Boost | ||
Optimus | ||
3D Gaming | ||
3D Vision | ||
3D Vision Live | ||
Adaptive VSync | ||
Blu Ray 3D | ||
FXAA | ||
TXAA |
Nvidia GeForce GTX 750 Ti vs Nvidia GeForce 940M
|
|
|
Nvidia GeForce GTX 750 Ti vs Nvidia GeForce 940M
Comparison of the technical characteristics between the graphics cards, with Nvidia GeForce GTX 750 Ti on one side and Nvidia GeForce 940M on the other side. The first is dedicated to the desktop sector, it has 640 shading units, a maximum frequency of 1,1 GHz, its lithography is 28 nm. The second is used on the laptop segment, it includes 384 shading units, a maximum frequency of 1,2 GHz, its lithography is 28 nm. The following table also compares the boost clock, the number of shading units (if indicated), of execution units, the amount of cache memory, the maximum memory capacity, the memory bus width, the release date, the number of PCIe lanes, the values obtained in various benchmarks.
Note: Commissions may be earned from the links above.
This page contains references to products from one or more of our advertisers. We may receive compensation when you click on links to those products. For an explanation of our advertising policy, please visit this page.
Specifications:
Graphics card | Nvidia GeForce GTX 750 Ti | Nvidia GeForce 940M | ||||||
Market (main) | Desktop | Laptop | ||||||
Release date | Q1 2014 | Q1 2015 | ||||||
Model number | GM107-400-A2 | N16S-GT-S | ||||||
GPU name | GM107 | GM108 | ||||||
Architecture | Maxwell | Maxwell | ||||||
Generation | GeForce 700 | GeForce 900M | ||||||
Lithography | 28 nm | 28 nm | ||||||
Bus interface | PCIe 3. 0 x16 | PCIe 3.0 x8 | ||||||
GPU base clock | 1,02 GHz | 1,07 GHz | ||||||
GPU boost clock | 1,09 GHz | 1,18 GHz | ||||||
Memory frequency | 1.350 MHz | 900 MHz | ||||||
Effective memory speed | 5,4 GB/s | 1,8 GB/s | ||||||
Memory size | 2 GB | 2 GB | ||||||
Memory type | GDDR5 | DDR3 | ||||||
Memory bus | 128 Bit | 64 Bit | ||||||
Memory bandwidth | 86,4 GB/s | 14,4 GB/s | ||||||
TDP | 60 W | 33 W | ||||||
Cores (compute units, SM, SMX) | 5 | 3 | ||||||
Shading units (cuda cores) | 640 | 384 | ||||||
TMUs | 40 | 24 | ||||||
ROPs | 16 | 8 | ||||||
Cache memory | 2 MB | 1 MB | ||||||
Pixel fillrate | 17,4 GP/s | 9,4 GP/s | ||||||
Texture fillrate | 43,4 GT/s | 28,2 GT/s | ||||||
Performance FP32 (float) | 1,4 TFLOPS | 903,2 GFLOPS | ||||||
Performance FP64 (double) | 43,4 GFLOPS | 28,2 GFLOPS | ||||||
Amazon | ||||||||
eBay |
Note: Commissions may be earned from the links above.
Price: For technical reasons, we cannot currently display a price less than 24 hours, or a real-time price. This is why we prefer for the moment not to show a price. You should refer to the respective online stores for the latest price, as well as availability.
We can better compare what are the technical differences between the two graphics cards.
Performances :
Performance comparison between the two processors, for this we consider the results generated on benchmark software such as Geekbench 4.
FP32 Performance in GFLOPS | |
---|---|
Nvidia GeForce GTX 750 Ti |
1.389 |
Nvidia GeForce 940M |
903,2 |
The difference is 54%.
Note: Commissions may be earned from the links above. These scores are only an
average of the performances got with these graphics cards, you may get different results.
Single precision floating point format, also known as FP32, is a computer number format that typically occupies 32 bits in PC memory. This represents a wide dynamic range of numeric values that employs a floating point.
See also:
Nvidia GeForce 9400 GTNvidia GeForce 9400MNvidia GeForce 940MX
Equivalence:
Nvidia GeForce GTX 750 Ti AMD equivalentNvidia GeForce 940M AMD equivalent
Disclaimer:
When you click on links to various merchants on this site and make a purchase, this can result in this site earning a commission. Affiliate programs and affiliations include, but are not limited to, the eBay Partner Network.
As an Amazon Associate I earn from qualifying purchases.
This page includes affiliate links for which the administrator of GadgetVersus may earn a commission at no extra cost to you should you make a purchase. These links are indicated using the hashtag #ad.
Information:
We do not assume any responsibility for the data displayed on our website. Please use at your own risk. Some or all of this data may be out of date or incomplete, please refer to the technical page on the respective manufacturer’s website to find the latest up-to-date information regarding the specifics of these products.
NVIDIA GeForce RTX 3090 Ti | 229738 |
|
NVIDIA A100 80GB PCIe | 214586 |
|
GeForce RTX 3080 Ti | 209081 |
|
NVIDIA A100-PCIE-80GB | 207124 |
|
GeForce RTX 3090 | 204921 |
|
NVIDIA GeForce RTX 3090 | 204395 |
|
NVIDIA GeForce RTX 3080 Ti | 201449 |
|
RTX A6000 | 200330 |
|
GRID A100-7-40C MIG 7g. 40gb | 196825 |
|
NVIDIA RTX A6000 | 195153 |
|
A100-SXM4-40GB | 190489 |
|
NVIDIA A40-8Q | 188056 |
|
NVIDIA A100-SXM4-40GB | 186450 |
|
Tesla V100S-PCIE-32GB | 186147 |
|
NVIDIA A40 | 185972 |
|
NVIDIA GeForce RTX 3080 | 181771 |
|
GeForce RTX 3080 | 181140 |
|
AMD Radeon RX 6900 XT | 170008 |
|
Tesla V100-SXM2-32GB | 169214 |
|
RTX A5000 | 166307 |
|
NVIDIA RTX A5000 | 163825 |
|
A100-PCIE-40GB | 161590 |
|
RX 6800 XT | 158867 |
|
AMD Radeon RX 6800 XT | 157812 |
|
A40-12Q | 156643 |
|
NVIDIA RTX A4500 | 155557 |
|
RX6800 XT | 155147 |
|
GRID V100S-32Q | 154397 |
|
NVIDIA A100-PCIE-40GB | 153690 |
|
Tesla V100-PCIE-16GB | 151180 |
|
A40 | 149033 |
|
NVIDIA GeForce RTX 3070 Ti | 147200 |
|
Tesla V100-SXM2-16GB | 145462 |
|
NVIDIA GeForce RTX 2080 Ti | 145322 |
|
Tesla V100-PCIE-32GB | 144501 |
|
Navi 21 [Radeon RX 6800/6800 XT / 6900 XT] | 143171 |
|
Quadro GV100 | 143059 |
|
AMD Radeon Pro W6900X | 141178 |
|
NVIDIA TITAN V | 140869 |
|
AMD Radeon PRO W6800 | 140549 |
|
GeForce RTX 2080 Ti | 138925 |
|
TITAN RTX | 138072 |
|
TITAN V | 136749 |
|
GRID V100D-4Q | 136323 |
|
NVIDIA GeForce RTX 3080 Ti Laptop GPU | 136008 |
|
GeForce RTX 3070 | 135064 |
|
Device 73bf | 134606 |
|
Quadro RTX 6000 | 134522 |
|
GRID RTX6000-2Q | 133165 |
|
NVIDIA GeForce RTX 3070 | 132922 |
|
Tesla V100-SXM2-32GB-LS | 131696 |
|
NVIDIA TITAN RTX | 130556 |
|
AMD Radeon RX 6800 | 130322 |
|
NVIDIA A10G | 126737 |
|
NVIDIA Quadro RTX 8000 | 125554 |
|
GeForce RTX 3080 Laptop GPU | 125425 |
|
Quadro RTX 8000 | 123613 |
|
NVIDIA GeForce RTX 3080 Laptop GPU | 123019 |
|
RTX A5000 Laptop GPU | 122155 |
|
GeForce RTX 3060 Ti | 120183 |
|
NVIDIA GeForce RTX 3070 Ti Laptop GPU | 119528 |
|
GRID RTX8000P-6Q | 119079 |
|
NVIDIA RTX A5000 Laptop GPU | 118509 |
|
NVIDIA A30 | 118447 |
|
NVIDIA GeForce RTX 3060 Ti | 117846 |
|
NVIDIA RTX A4000 | 116149 |
|
NVIDIA GeForce RTX 2080 SUPER | 114956 |
|
RTX A4000 | 114683 |
|
AMD Radeon Pro W6900X Compute Engine | 114407 |
|
GeForce RTX 2080 SUPER | 113021 |
|
NVIDIA GeForce RTX 3070 Laptop GPU | 111833 |
|
GeForce RTX 3070 Laptop GPU | 111099 |
|
GRID RTX6000P-24Q | 109662 |
|
NVIDIA RTX A4000 Laptop GPU | 106611 |
|
AMD Radeon RX 6900 XT Compute Engine | 105942 |
|
GeForce RTX 2080 | 105930 |
|
NVIDIA GeForce RTX 2080 | 105324 |
|
NVIDIA Quadro RTX 5000 | 105171 |
|
AMD Radeon RX 6700 XT | 102988 |
|
RTX A4000 Laptop GPU | 102133 |
|
AMD Radeon RX 6800 XT Compute Engine | 99679 |
|
Quadro RTX 5000 | 99291 |
|
NVIDIA GeForce RTX 2070 SUPER | 97485 |
|
GeForce RTX 2070 SUPER | 97413 |
|
AMD Radeon PRO W6800X Compute Engine | 96704 |
|
GeForce RTX 3060 | 96416 |
|
Vega 20 [Radeon VII] | 96073 |
|
NVIDIA Graphics Device | 95793 |
|
NVIDIA GeForce RTX 3060 | 95677 |
|
Navi 22 [Radeon RX 6700/6700 XT / 6800M] | 93993 |
|
AMD Radeon RX 6800M | 93784 |
|
AMD Radeon PRO W6800X Duo Compute Engine | 93683 |
|
NVIDIA GeForce RTX 3060 Laptop GPU | 92420 |
|
AMD Radeon Navi21 Compute Engine | 91589 |
|
NVIDIA Quadro RTX 5000 with Max-Q Design | 91343 |
|
GeForce RTX 3060 Laptop GPU | 89012 |
|
AMD Radeon Pro VII | 88671 |
|
AMD Radeon Pro Vega II Duo | 88483 |
|
AMD Radeon PRO W6800 Compute Engine | 88393 |
|
RTX A3000 Laptop GPU | 87942 |
|
Quadro RTX 5000 with Max-Q Design | 87665 |
|
NVIDIA GeForce RTX 2080 Super with Max-Q Design | 87462 |
|
AMD Radeon RX 6800 Compute Engine | 87327 |
|
NVIDIA GeForce RTX 2080 with Max-Q Design | 87150 |
|
GeForce RTX 2080 Super with Max-Q Design | 86977 |
|
GeForce RTX 2080 with Max-Q Design | 86809 |
|
AMD Radeon VII | 86533 |
|
AMD Radeon Pro Vega II | 86528 |
|
NVIDIA GeForce RTX 2070 | 85818 |
|
GeForce RTX 2070 | 85629 |
|
NVIDIA GeForce RTX 2060 SUPER | 85216 |
|
NVIDIA Quadro RTX 4000 | 85184 |
|
AMD Radeon Pro Vega II Compute Engine | 84719 |
|
GeForce RTX 2060 SUPER | 84475 |
|
AMD Radeon Pro Vega II Duo Compute Engine | 84049 |
|
Quadro GP100 | 82724 |
|
AMD Radeon RX 6600 XT | 82559 |
|
ATI Radeon Pro Vega II Compute Engine | 81785 |
|
ATI Radeon Pro Vega II Duo Compute Engine | 81498 |
|
NVIDIA GeForce RTX 2070 Super with Max-Q Design | 81209 |
|
Radeon RX 5700XT | 81074 |
|
AMD Radeon RX 6700M | 80710 |
|
AMD Radeon Pro VII Compute Engine | 80653 |
|
Quadro RTX 4000 | 80254 |
|
GRID RTX6000P-8Q | 79528 |
|
GeForce RTX 2070 Super with Max-Q Design | 79413 |
|
NVIDIA RTX A2000 12GB | 79123 |
|
GRID A100-2-10C MIG 2g. 10gb | 78806 |
|
AMD Radeon RX 6800S | 78332 |
|
Radeon RX Vega | 77618 |
|
NVIDIA RTX A2000 | 76373 |
|
Tesla P100-SXM2-16GB | 76222 |
|
AMD Radeon RX 6600 | 76157 |
|
AMD Radeon Pro W5700X | 76049 |
|
Apple M1 Ultra | 76040 |
|
Radeon Pro Vega 64X | 75438 |
|
GeForce RTX 2070 with Max-Q Design | 74397 |
|
NVIDIA Quadro RTX 6000 | 74179 |
|
NVIDIA GeForce RTX 2070 with Max-Q Design | 73917 |
|
AMD Radeon RX Vega | 73691 |
|
AMD Radeon PRO W6600 | 73560 |
|
Quadro RTX 4000 with Max-Q Design | 73097 |
|
AMD Radeon RX 6700S | 72317 |
|
Radeon Vega Frontier Edition | 71962 |
|
AMD Radeon Pro W5700 | 71710 |
|
NVIDIA GeForce RTX 3050 | 71667 |
|
AMD Radeon RX 5700 XT | 71091 |
|
NVIDIA GeForce RTX 2060 | 70754 |
|
Radeon (TM) Pro WX 9100 | 70558 |
|
GeForce RTX 2060 | 70069 |
|
NVIDIA RTX A3000 Laptop GPU | 69845 |
|
Radeon (TM) PRO WX 8200 | 69116 |
|
Radeon Pro Vega 64 | 69055 |
|
AMD Radeon RX 5700 XT 50th Anniversary | 68559 |
|
NVIDIA Quadro RTX 3000 with Max-Q Design | 68305 |
|
AMD Radeon Pro W6600X Compute Engine | 68136 |
|
GRID T4-16C | 67838 |
|
Tesla T4 | 67669 |
|
AMD Radeon Pro 5700XT Compute Engine | 66795 |
|
NVIDIA TITAN Xp COLLECTORS EDITION | 66294 |
|
ATI Radeon Pro Vega 64X Compute Engine | 66033 |
|
TITAN Xp | 65766 |
|
AMD Radeon Unknown Prototype Compute Engine | 65602 |
|
TITAN Xp COLLECTORS EDITION | 65520 |
|
Radeon (TM) Pro WX 9100 Graphics | 65210 |
|
Tesla P100-PCIE-16GB | 64789 |
|
AMD Radeon 5700XT Compute Engine | 64666 |
|
GRID T4-2Q | 64664 |
|
NVIDIA TITAN Xp | 64433 |
|
AMD Radeon RX 6600 XT Compute Engine | 64395 |
|
AMD Radeon RX 6600M | 63711 |
|
AMD Radeon RX5700xt Compute Engine | 63708 |
|
AMD Radeon Pro W5700X Compute Engine | 62529 |
|
NVIDIA GeForce RTX 3050 Ti Laptop GPU | 62154 |
|
ATI Radeon Pro Vega 64 Compute Engine | 61980 |
|
GRID T4-4Q | 61943 |
|
NVIDIA GeForce RTX 2060 with Max-Q Design | 61701 |
|
NVIDIA GeForce GTX 1660 Ti | 61373 |
|
Quadro RTX 3000 with Max-Q Design | 61360 |
|
AMD Radeon Pro Vega 64X Compute Engine | 61300 |
|
NVIDIA GeForce GTX 1080 Ti | 61295 |
|
NVIDIA Tesla T4 | 61276 |
|
NVIDIA RTX A2000 Laptop GPU | 61134 |
|
Quadro RTX 3000 | 61102 |
|
GeForce GTX 1080 Ti | 61026 |
|
Radeon Pro Vega 56 | 60993 |
|
NVIDIA GeForce GTX 1660 SUPER | 60772 |
|
Vega 10 XL/XT [Radeon RX Vega 56/64] | 60605 |
|
NVIDIA TITAN X (Pascal) | 60601 |
|
GeForce RTX 3050 Ti Laptop GPU | 60597 |
|
GeForce GTX 1660 SUPER | 60578 |
|
GeForce GTX 1660 Ti | 60040 |
|
AMD Radeon Pro V520 MxGPU | 59837 |
|
GRID T4-8Q | 59749 |
|
Fiji [Radeon R9 FURY / NANO Series] | 59624 |
|
GeForce RTX 2060 with Max-Q Design | 59098 |
|
RTX A2000 Laptop GPU | 59023 |
|
AMD Radeon RX 5700 | 58932 |
|
ATI Radeon HD Vega10 XT Prototype Compute Engine | 58926 |
|
TITAN X (Pascal) | 58866 |
|
Navi 10 [Radeon RX 5600 OEM/5600 XT / 5700/5700 XT] | 58558 |
|
ATI Radeon Pro W5700X Compute Engine | 58479 |
|
AMD Radeon VII Compute Engine | 58178 |
|
GRID T4-16Q | 58147 |
|
AMD Radeon Pro Vega 64 Compute Engine | 58023 |
|
GRID T4-4C | 57969 |
|
AMD Radeon RX 5600 XT | 57968 |
|
AMD Radeon RX 5700 XT 50th Anniversary Compute Engine | 57556 |
|
Graphics Device | 57310 |
|
AMD Radeon (TM) Pro VII | 57186 |
|
AMD Radeon Pro 5700X Compute Engine | 56931 |
|
Apple M1 Max | 56581 |
|
Quadro P6000 | 56151 |
|
ATI Radeon Pro Vega 56 Compute Engine | 55927 |
|
GeForce GTX 1660 | 55712 |
|
AMD Radeon RX 5700 XT Compute Engine | 55662 |
|
NVIDIA GeForce GTX 1660 | 55482 |
|
AMD Radeon Vega Frontier Edition Compute Engine | 55378 |
|
AMD Radeon RX Vega 64 Compute Engine | 55306 |
|
NVIDIA GeForce RTX 3050 Laptop GPU | 55123 |
|
GeForce RTX 3050 Laptop GPU | 55086 |
|
NVIDIA GeForce GTX 1080 | 54640 |
|
GeForce GTX 1080 | 54453 |
|
NVIDIA GeForce GTX 1660 Ti with Max-Q Design | 54310 |
|
AMD Radeon Pro 5700 XT Compute Engine | 54300 |
|
AMD Radeon PRO W6600 Compute Engine | 54244 |
|
AMD Radeon RX 6600 Compute Engine | 54180 |
|
AMD Radeon Pro Vega 56 Compute Engine | 53905 |
|
NVIDIA GeForce GTX 1650 SUPER | 53834 |
|
AMD Radeon RX 5700XT Compute Engine | 53692 |
|
AMD Radeon (TM) R9 Fury Series | 53458 |
|
GeForce GTX 1650 SUPER | 53406 |
|
ATI Radeon RX Vega10 Unknown Prototype Compute Engine | 53388 |
|
AMD Radeon Pro 5700 XT | 53335 |
|
AMD Radeon Pro WX 9100 Compute Engine | 53308 |
|
ATI Radeon Pro 5700X Compute Engine | 53286 |
|
GeForce GTX 1660 Ti with Max-Q Design | 53231 |
|
AMD Radeon RX Vega 56 Compute Engine | 53003 |
|
AMD Radeon Pro 5600XT Compute Engine | 52917 |
|
AMD Radeon RX 6500 XT | 52512 |
|
NVIDIA GeForce GTX 1070 Ti | 52434 |
|
ATI Radeon Vega Frontier Edition Compute Engine | 52132 |
|
Radeon RX 590 Series | 52086 |
|
GeForce GTX 1070 Ti | 51972 |
|
AMD Radeon Pro W5700XT Compute Engine | 51910 |
|
AMD Radeon Pro AMD RADEON RX 5700 XT Compute Engine | 51559 |
|
ATI Radeon RX Vega 64 Compute Engine | 51447 |
|
AMD Radeon(TM) RX 5600M Series | 51426 |
|
Tesla P40 | 51217 |
|
Radeon Pro Vega 48 | 51123 |
|
Radeon RX 5700 | 51121 |
|
GRID T4-8C | 50827 |
|
ATI Radeon Vega Compute Engine | 50683 |
|
Radeon (TM) Pro Duo | 50232 |
|
AMD Radeon Pro W5700 Compute Engine | 50207 |
|
P102-100 | 49602 |
|
ATI Radeon VII Compute Engine | 49525 |
|
Device 6863 | 49493 |
|
Ellesmere [Radeon RX 470/480/570/570X/580/580X/590] | 49236 |
|
Intel(R) Xe Graphics | 49205 |
|
AMD Radeon RX 580 Series | 49182 |
|
ATI Radeon RX Vega 56 Compute Engine | 49112 |
|
AMD Radeon RX 5700 Compute Engine | 48905 |
|
AMD Radeon Pro Vega 48 Compute Engine | 48758 |
|
AMD Radeon RX590 GME | 48735 |
|
ATI Radeon Pro WX 9100 Compute Engine | 48656 |
|
AMD Radeon RX5600 | 48650 |
|
AMD Radeon RX 5500 XT | 48577 |
|
AMD Radeon Pro 5700 | 48108 |
|
ATI Radeon RX 5700 XT 50th Anniversary Compute Engine | 47952 |
|
NVIDIA GeForce GTX 1070 | 47750 |
|
GeForce GTX 1070 | 47499 |
|
Quadro P5000 | 47424 |
|
ATI Radeon Pro Vega 48 Compute Engine | 47418 |
|
Quadro P5200 with Max-Q Design | 47181 |
|
ATI Radeon Unknown Prototype Compute Engine | 47143 |
|
AMD Radeon Vega Compute Engine | 47025 |
|
GeForce GTX 1080 with Max-Q Design | 46870 |
|
NVIDIA GeForce GTX 1080 with Max-Q Design | 46864 |
|
Quadro P5200 | 46858 |
|
Radeon RX 580 Series | 46816 |
|
AMD Radeon Pro V520 MxGPU | 46770 |
|
AMD Radeon Pro 5700 Compute Engine | 46509 |
|
AMD Radeon (TM) R9 390 Series | 46328 |
|
ATI Radeon RX 5700 XT Compute Engine | 45995 |
|
NVIDIA GeForce RTX 2050 | 45986 |
|
AMD Radeon RX 5600 XT Compute Engine | 44857 |
|
AMD Radeon Pro 5600M | 44697 |
|
Radeon (TM) RX 480 Graphics | 44522 |
|
AMD Radeon Pro 5600 XT Compute Engine | 44486 |
|
AMD Radeon (TM) RX 580 | 44351 |
|
P104-100 | 44280 |
|
ATI Radeon RX 590 Compute Engine | 44246 |
|
Radeon(TM) RX 580 | 44205 |
|
AMD Radeon Pro RX580 Compute Engine | 44066 |
|
Radeon RX480 | 43967 |
|
Radeon Pro W5700X | 43810 |
|
NVIDIA GeForce GTX 1650 Ti | 43645 |
|
AMD Radeon (TM) RX 480 | 43505 |
|
AMD Radeon HD Hawaii XT Prototype Compute Engine | 43393 |
|
AMD Radeon(TM) R9 290X | 43067 |
|
AMD FirePro W9100 | 43046 |
|
AMD Radeon RX 5600M | 43011 |
|
Radeon (TM) RX 580 Graphics | 43008 |
|
GRID A100-1-5C MIG 1g. 5gb | 42750 |
|
AMD Radeon (TM) RX 480 Graphics | 42732 |
|
Radeon(TM) RX 480 | 42715 |
|
GeForce GTX 1650 Ti | 42452 |
|
NVIDIA Quadro P4000 | 42289 |
|
AMD Radeon RX 590 Compute Engine | 42288 |
|
T1200 Laptop GPU | 42064 |
|
AMD Radeon (TM) Pro WX 7100 Graphics | 42007 |
|
AMD Radeon Pro 580X | 42002 |
|
Radeon(TM) RX 580X | 41822 |
|
AMD Radeon(TM) Pro Duo | 41810 |
|
NVIDIA T1200 Laptop GPU | 41682 |
|
AMD Radeon Pro W5500 | 41494 |
|
Radeon RX 5500 XT | 41385 |
|
AMD Radeon (TM) Pro WX 7130 Graphics | 41335 |
|
GRID P40-2Q | 41280 |
|
ATI Radeon HD Hawaii XT Prototype Compute Engine | 41187 |
|
AMD Radeon Pro 5500 XT | 41093 |
|
Radeon RX 570 Series | 41087 |
|
AMD Radeon HD Hawaii PRO Prototype Compute Engine | 41028 |
|
NVIDIA Quadro P5000 | 40953 |
|
AMD Radeon Pro 5500 XT Compute Engine | 40892 |
|
Radeon (TM) RX 570 Graphics | 40810 |
|
AMD Radeon RX 5600 Compute Engine | 40788 |
|
ATI Radeon RX 5600 XT Compute Engine | 40624 |
|
ATI Radeon Pro 5500 XT Compute Engine | 40620 |
|
AMD Radeon RX 580 2048SP | 40609 |
|
Radeon Pro 580 | 40582 |
|
Quadro T2000 with Max-Q Design | 40534 |
|
Quadro P4000 | 40511 |
|
NVIDIA GeForce GTX 1650 Ti with Max-Q Design | 40474 |
|
Radeon Pro 580X | 40473 |
|
Quadro P4200 with Max-Q Design | 40459 |
|
AMD Radeon Navi10 Compute Engine | 40385 |
|
AMD Radeon RX 580 Compute Engine | 40327 |
|
ATI Radeon RX 580 Compute Engine | 40224 |
|
AMD Radeon RX 5500 | 40204 |
|
GeForce GTX 980 Ti | 40025 |
|
AMD Radeon Pro 5600M Compute Engine | 39994 |
|
GeForce GTX 1070 with Max-Q Design | 39907 |
|
Navi 14 [Radeon RX 5500/5500M / Pro 5500M] | 39899 |
|
NVIDIA GeForce GTX 1070 with Max-Q Design | 39687 |
|
NVIDIA GeForce GTX 980 Ti | 39681 |
|
GeForce GTX 1650 Ti with Max-Q Design | 39646 |
|
Radeon RX 570 | 39547 |
|
AMD Radeon RX RX 5600 XT Compute Engine | 39545 |
|
Quadro T2000 | 39454 |
|
Radeon Pro WX 7100 | 39367 |
|
AMD RadeonT RX 5300 | 39363 |
|
ATI Radeon HD Hawaii PRO Prototype Compute Engine | 39145 |
|
Radeon (TM) RX 470 Graphics | 39085 |
|
GeForce GTX TITAN X | 39047 |
|
AMD Radeon Pro W5500X Compute Engine | 38977 |
|
AMD Radeon (TM) RX 570X | 38939 |
|
AMD Radeon Pro 5500XT Compute Engine | 38896 |
|
NVIDIA Quadro T2000 | 38863 |
|
AMD Radeon Pro Radeon RX 580 Compute Engine | 38732 |
|
AMD Radeon Pro 580X Compute Engine | 38476 |
|
GRID P4-8Q | 38427 |
|
AMD Radeon RX 480 Compute Engine | 38338 |
|
NVIDIA GeForce GTX 1650 | 38315 |
|
Quadro P4200 | 38169 |
|
GeForce GTX 1650 | 38098 |
|
ATI Radeon HD Hawaii Unknown Prototype Compute Engine | 38084 |
|
AMD Radeon Pro W5500 Compute Engine | 37922 |
|
NVIDIA T1000 8GB | 37882 |
|
ASUS Radeon RX 470 Series | 37864 |
|
Radeon (TM) RX 570 | 37824 |
|
AMD Radeon R9 200 / HD 7900 Series | 37582 |
|
Radeon (TM) Pro WX 7100 Graphics | 37512 |
|
NVIDIA GeForce GTX TITAN X | 37478 |
|
ATI Radeon RX 5700 Compute Engine | 37443 |
|
AMD Radeon R9 200 Series | 37308 |
|
AMD RadeonPro 580X Compute Engine | 37160 |
|
NVIDIA A2 | 37130 |
|
AMD Radeon RX 5500M Series | 36948 |
|
AMD Radeon Pro 580 Compute Engine | 36932 |
|
T1000 | 36847 |
|
Radeon RX 5500M | 36832 |
|
Radeon RX 470 Series | 36822 |
|
ATI Radeon RX 480 Compute Engine | 36813 |
|
AMD Radeon RX 5500 XT Compute Engine | 36694 |
|
Quadro M6000 | 36685 |
|
AMD Radeon (TM) E9550 | 36624 |
|
NVIDIA T1000 | 36526 |
|
NVIDIA GeForce GTX 1650 with Max-Q Design | 36447 |
|
NVIDIA GeForce GTX 1060 6GB | 36416 |
|
AMD Radeon (TM) RX 570 | 36192 |
|
AMD Radeon Pro 5300 | 36134 |
|
NVIDIA GeForce MX550 | 36084 |
|
GeForce GTX 1650 with Max-Q Design | 36074 |
|
P106-100 | 35963 |
|
GeForce GTX 1060 6GB | 35886 |
|
AMD Radeon Pro 5300 Compute Engine | 35860 |
|
ASUS R9 280 Series | 35831 |
|
AMD Radeon RX 570 Compute Engine | 35793 |
|
ATI Radeon Pro WX 7100 Compute Engine | 35790 |
|
ATI Radeon RX 570 Compute Engine | 35784 |
|
ATI Radeon Pro 580X Compute Engine | 35767 |
|
Apple M1 Pro | 35724 |
|
Tesla M40 24GB | 35695 |
|
Quadro M6000 24GB | 35572 |
|
Radeon Pro 575 | 35081 |
|
AMD Radeon Pro WX8200 Compute Engine | 35060 |
|
ATI Radeon HD Fiji XT Prototype Compute Engine | 34993 |
|
AMD Radeon Pro WX 7100 Compute Engine | 34963 |
|
Radeon Pro 575X | 34921 |
|
AMD Radeon HD Tahiti XT Prototype Compute Engine | 34900 |
|
AMD Radeon Pro 5500M | 34864 |
|
Radeon (TM) RX 470 Series | 34862 |
|
ATI Radeon Pro 580 Compute Engine | 34801 |
|
AMD FirePro W8100 | 34705 |
|
T600 Laptop GPU | 34635 |
|
AMD Radeon Pro 575X Compute Engine | 34601 |
|
AMD Radeon RX 470 Compute Engine | 34493 |
|
AMD Radeon HD Fiji XT Prototype Compute Engine | 34292 |
|
Tesla P4 | 34282 |
|
ATI Radeon RX 470 Compute Engine | 34251 |
|
Tesla M40 | 34109 |
|
NVIDIA GeForce GTX 1060 3GB | 33958 |
|
ATI Radeon HD Tahiti XT Prototype Compute Engine | 33845 |
|
AMD Radeon Pro 575 Compute Engine | 33748 |
|
NVIDIA T600 Laptop GPU | 33676 |
|
NVIDIA GeForce GTX 1060 5GB | 33671 |
|
Quadro P3200 | 33597 |
|
AMD Radeon Navi14 Compute Engine | 33574 |
|
GeForce GTX 1060 3GB | 33484 |
|
NVIDIA GeForce GTX 980 | 33463 |
|
GeForce GTX 980 | 33341 |
|
GeForce GTX 1060 5GB | 33188 |
|
AMD Radeon HD 7900 Series | 32996 |
|
NVIDIA Quadro T1000 | 32981 |
|
NVIDIA Quadro P2200 | 32972 |
|
Quadro P2200 | 32750 |
|
Quadro T1000 with Max-Q Design | 32596 |
|
Quadro T1000 | 32413 |
|
NVIDIA GeForce GTX 1060 | 32388 |
|
GeForce GTX 1060 | 32246 |
|
AMD FirePro W9000 | 31775 |
|
AMD Radeon HD Tonga XT Prototype Compute Engine | 31759 |
|
ATI Radeon Pro 575 Compute Engine | 31460 |
|
AMD Radeon Pro 5500M Compute Engine | 31360 |
|
ATI Radeon Pro 575X Compute Engine | 31319 |
|
Quadro P3200 with Max-Q Design | 31276 |
|
AMD FirePro S10000 | 30631 |
|
Radeon RX 5300M | 30608 |
|
Radeon Pro 570 | 30331 |
|
ATI Radeon RX 5500 XT Compute Engine | 30154 |
|
GeForce GTX 1060 with Max-Q Design | 29934 |
|
AMD Radeon (TM) R9 380 Series | 29877 |
|
AMD FirePro D700 (FireGL V) | 29758 |
|
AMD FirePro S7150 | 29623 |
|
NVIDIA GeForce GTX 1060 with Max-Q Design | 29493 |
|
Radeon Pro 570X | 29459 |
|
AMD Radeon Pro 570X Compute Engine | 29308 |
|
T500 | 29203 |
|
NVIDIA GeForce GTX 970 | 29153 |
|
GeForce GTX 970 | 29064 |
|
Radeon RX Vega M GH Graphics | 29055 |
|
NVIDIA GeForce MX450 | 29000 |
|
AMD Radeon Pro 570 Compute Engine | 28958 |
|
AMD Radeon HD — FirePro D700 Compute Engine | 28896 |
|
NVIDIA T500 | 28662 |
|
AMD Radeon HD 7950 Compute Engine | 28521 |
|
ATI Radeon HD — FirePro D700 Compute Engine | 28514 |
|
Tesla M60 | 28232 |
|
ATI Radeon Pro WX 5100 Compute Engine | 28072 |
|
ATI Radeon Pro 5500M Compute Engine | 28053 |
|
Quadro M5000 | 28016 |
|
AMD FirePro (TM) S9300 x2 | 27971 |
|
AMD Radeon HD Tonga PRO Prototype Compute Engine | 27951 |
|
GeForce MX450 | 27861 |
|
Radeon (TM) Pro WX 5100 Graphics | 27852 |
|
AMD Radeon R9 M395X Compute Engine | 27725 |
|
7360:41 | 27548 |
|
Radeon Pro Vega 20 | 27443 |
|
AMD Radeon Pro 5300M | 27388 |
|
ATI Radeon R9 M395X Compute Engine | 27323 |
|
ATI Radeon HD 7950 Compute Engine | 27319 |
|
T600 | 27240 |
|
AMD Radeon R9 M295X Compute Engine | 27174 |
|
ATI Radeon HD Tonga XT Prototype Compute Engine | 27082 |
|
ATI Radeon Pro 570X Compute Engine | 26899 |
|
ATI Radeon R9 M295X Compute Engine | 26881 |
|
ATI Radeon Pro 570 Compute Engine | 26781 |
|
GRID RTX6000P-6Q | 26590 |
|
AMD RADEON R9 M295X | 26539 |
|
NVIDIA T600 | 26519 |
|
ATI Radeon Pro W5500X Compute Engine | 26480 |
|
Radeon RX 5500 | 26381 |
|
AMD FirePro W7100 Graphics Adapter | 26357 |
|
AMD Radeon Pro 5300M Compute Engine | 25970 |
|
AMD FirePro W7100 | 25868 |
|
Radeon Pro WX 5100 | 25596 |
|
NVIDIA GeForce GTX 780 Ti | 25535 |
|
AMD Radeon HD Tahiti LE Prototype Compute Engine | 25465 |
|
AMD Radeon (TM) R9 200 Series | 25193 |
|
NVIDIA GeForce GTX TITAN Black | 25112 |
|
Quadro P3000 | 25108 |
|
ATI Radeon HD Tonga PRO Prototype Compute Engine | 24867 |
|
AMD Radeon Pro WX 5100 Compute Engine | 24747 |
|
AMD Radeon (TM) R9 370 Series | 24591 |
|
AMD Radeon Pro Vega 20 Compute Engine | 24453 |
|
AMD Radeon(TM) HD8970M | 24227 |
|
ATI Radeon Pro Vega 20 Compute Engine | 23888 |
|
Quadro P2000 | 23869 |
|
AMD Radeon HD Pitcairn XT Prototype Compute Engine | 23836 |
|
NVIDIA GeForce GTX 980M | 23785 |
|
AMD Radeon R9 M395 Compute Engine | 23764 |
|
GeForce GTX 980M | 23683 |
|
AMD Radeon HD 7800 Series | 23666 |
|
ATI Radeon Pro 5300M Compute Engine | 23509 |
|
AMD Radeon (TM) R7 370 Series | 23431 |
|
ATI Radeon Polaris Compute Engine | 23363 |
|
ATI Radeon HD Pitcairn PRO Prototype Compute Engine | 23282 |
|
ATI Radeon HD Ellesmere Prototype Compute Engine | 23268 |
|
AMD RADEON R9 M290X | 23226 |
|
ATI Radeon R9 M395 Compute Engine | 23189 |
|
Intel(R) Arc(TM) A350M Graphics | 23107 |
|
AMD Radeon (TM) RX 560X | 23094 |
|
AMD Radeon(TM) R9 370 Series | 23041 |
|
AMD Radeon HD Ellesmere Prototype Compute Engine | 23027 |
|
AMD Radeon R9 M290X Compute Engine | 22891 |
|
Quadro M5000M | 22881 |
|
Radeon(TM) RX580 | 22842 |
|
AMD Radeon HD Pitcairn PRO Prototype Compute Engine | 22803 |
|
AMD Radeon HD Pitcairn Unknown Prototype Compute Engine | 22794 |
|
NVIDIA GeForce GTX TITAN Z | 22732 |
|
ATI Radeon R9 M290X Compute Engine | 22590 |
|
Radeon Pro Vega 16 | 22421 |
|
AMD Radeon HD 7970M | 22410 |
|
AMD Radeon(TM) R9 270 | 22331 |
|
Intel(R) Iris(R) Xe MAX Graphics [0x4905] | 22236 |
|
Intel(R) Graphics [0x4905] | 22230 |
|
AMD Radeon (TM) R7 370 Series Graphics | 22217 |
|
NVIDIA GeForce GTX 1050 Ti | 22192 |
|
AMD Radeon (TM) R9 M390X | 22044 |
|
NVIDIA GeForce GTX TITAN | 21881 |
|
NVIDIA Quadro P2000 | 21880 |
|
GeForce GTX 1050 Ti | 21864 |
|
Radeon (TM) RX 460 | 21824 |
|
ATI Radeon HD Pitcairn Unknown Prototype Compute Engine | 21796 |
|
AMD RADEON R9 M290 | 21696 |
|
AMD FirePro D300 (FireGL V) | 21631 |
|
ATI Radeon HD Pitcairn XT Prototype Compute Engine | 21531 |
|
AMD RADEON R9 M395 | 21460 |
|
AMD Radeon (TM) R9 370 | 21285 |
|
AMD Radeon HD — FirePro D300 Compute Engine | 21243 |
|
Radeon RX 560 Series | 21086 |
|
AMD FirePro W7000 | 21082 |
|
NVIDIA GeForce GTX 960 | 21072 |
|
AMD Radeon HD — FirePro D500 Compute Engine | 21013 |
|
NVIDIA GeForce GTX 780 | 21004 |
|
AMD Radeon Pro Vega 16 Compute Engine | 20990 |
|
P106-090 | 20947 |
|
AMD Radeon Polaris Compute Engine | 20939 |
|
AMD FirePro D500 (FireGL V) | 20890 |
|
RX 560X | 20889 |
|
GeForce GTX 960 | 20858 |
|
Radeon(TM) Pro WX 4170 Graphics | 20842 |
|
ATI Radeon HD Baffin Unknown Prototype Compute Engine | 20764 |
|
ATI Radeon HD — FirePro D300 Compute Engine | 20706 |
|
GeForce GTX 1050 Ti with Max-Q Design | 20678 |
|
AMD FirePro W7000 (FireGL V) Graphics Adapter | 20677 |
|
ASUS R7 265 Series | 20651 |
|
Radeon RX 560X Series | 20637 |
|
ATI Radeon Pro Vega 16 Compute Engine | 20539 |
|
NVIDIA GeForce GTX 1050 Ti with Max-Q Design | 20508 |
|
Radeon RX Vega M GL Graphics | 20414 |
|
ATI Radeon HD — FirePro D500 Compute Engine | 20371 |
|
AMD RADEON R9 M390 | 20261 |
|
Radeon Pro WX 4100 | 20153 |
|
ATI Radeon R9 M290 Compute Engine | 20068 |
|
Quadro M4000M | 20025 |
|
AMD Radeon R9 M390 Compute Engine | 20016 |
|
NVIDIA GeForce GTX 970M | 20012 |
|
AMD Radeon R9 M290 Compute Engine | 20005 |
|
Radeon(TM) RX 460 Graphics | 20002 |
|
AMD Radeon HD Baffin Prototype Compute Engine | 19937 |
|
ATI Radeon RX 560 Compute Engine | 19923 |
|
AMD Radeon (TM) RX 560 | 19810 |
|
Radeon (TM) Pro WX 4100 | 19770 |
|
AMD Radeon RX 560 Compute Engine | 19745 |
|
Quadro P2000 with Max-Q Design | 19715 |
|
GeForce GTX 970M | 19656 |
|
GeForce GTX 780 Ti | 19642 |
|
AMD Radeon(TM) RX 560 Series | 19549 |
|
67EF:C0 | 19535 |
|
AMD Radeon(TM) RX460 | 19398 |
|
ATI Radeon R9 M390 Compute Engine | 19360 |
|
ATI Radeon Pro WX 4100 Compute Engine | 19327 |
|
AMD FirePro D300 | 19273 |
|
Radeon (TM) RX 560 | 19252 |
|
AMD Radeon HD Ellesmere Unknown Prototype Compute Engine | 19171 |
|
AMD Radeon HD Amethyst XT Prototype Compute Engine | 18907 |
|
Radeon RX 560X | 18847 |
|
Radeon RX 560 | 18780 |
|
AMD Radeon Pro 560X Compute Engine | 18675 |
|
GeForce GTX TITAN Black | 18641 |
|
NVIDIA GeForce GTX 1050 | 18573 |
|
Radeon(TM) RX 460 | 18503 |
|
Radeon (TM) RX 560X | 18492 |
|
NVIDIA Quadro M4000 | 18372 |
|
ATI Radeon RX 460 Compute Engine | 18308 |
|
GeForce GTX TITAN Z | 18305 |
|
NVIDIA GeForce GTX 950 | 18233 |
|
GeForce GTX 1050 | 18208 |
|
Quadro M4000 | 18183 |
|
Apple M1 | 18171 |
|
Radeon Pro 560X | 18155 |
|
GeForce GTX 950 | 17880 |
|
AMD Radeon(TM) RX 560 | 17682 |
|
GeForce GTX TITAN | 17643 |
|
AMD Radeon RX 460 Compute Engine | 17640 |
|
Quadro K6000 | 17636 |
|
AMD Radeon(TM) R7 360 Series | 17603 |
|
Tesla K40m | 17564 |
|
AMD RADEON R9 M395X | 17532 |
|
NVIDIA GeForce GTX 770 | 17483 |
|
NVIDIA Tesla K40c | 17468 |
|
Intel(R) Iris(R) Xe MAX Graphics | 17398 |
|
Quadro M3000M | 17348 |
|
Radeon Pro WX Vega M GL Graphics | 17282 |
|
67EF:CF | 17262 |
|
Tesla K40c | 17133 |
|
GeForce GTX 1050 with Max-Q Design | 17020 |
|
AMD Radeon Pro WX 4100 Compute Engine | 17001 |
|
AMD Radeon Pro 460 Compute Engine | 16987 |
|
AMD Radeon HD Bonaire XT Prototype Compute Engine | 16943 |
|
AMD Radeon Pro 560 Compute Engine | 16903 |
|
Radeon Pro 560 | 16695 |
|
NVIDIA T400 | 16656 |
|
AMD Radeon Pro 460 | 16535 |
|
NVIDIA GeForce GTX 965M | 16496 |
|
NVIDIA T400 4GB | 16489 |
|
ATI Radeon Pro 560X Compute Engine | 16485 |
|
NVIDIA Quadro M2200 | 16429 |
|
NVIDIA GeForce GTX 680 | 16368 |
|
Radeon(TM) RX 560 Graphics | 16270 |
|
T400 | 16255 |
|
AMD Radeon (TM) R7 360 Series | 16230 |
|
AMD Radeon HD 8950 | 16214 |
|
AMD Radeon HD Saturn XT Prototype Compute Engine | 16196 |
|
Quadro K5200 | 16029 |
|
NVIDIA GeForce GTX 1050 with Max-Q Design | 16029 |
|
Intel(R) Gen12 Desktop Graphics Controller | 15964 |
|
Tesla K80 | 15947 |
|
AMD Radeon RX 640 | 15883 |
|
GeForce GTX 965M | 15773 |
|
NVIDIA Quadro P1000 | 15667 |
|
AMD Radeon Pro WX 3200 Series | 15640 |
|
AMD FirePro M6100 | 15612 |
|
GeForce GTX 780 | 15515 |
|
NVIDIA GeForce GTX 690 | 15421 |
|
ATI Radeon Pro 460 Compute Engine | 15199 |
|
AMD Radeon RX 550 Compute Engine | 15176 |
|
AMD 15D8:DA | 15119 |
|
NVIDIA GeForce GTX 880M | 15023 |
|
AMD Radeon R9 M380 Compute Engine | 14979 |
|
Quadro M2000 | 14953 |
|
AMD Radeon (TM) RX 460 Graphics | 14923 |
|
Quadro P1000 | 14886 |
|
AMD Radeon (TM) R9 360 | 14815 |
|
NVIDIA GeForce GTX 670 | 14780 |
|
Tesla K20c | 14766 |
|
Quadro M2200 | 14761 |
|
GeForce GTX 580 | 14740 |
|
ATI Radeon Pro 560 Compute Engine | 14709 |
|
AMD 15D8:C8 | 14666 |
|
NVIDIA GeForce GTX 660 Ti | 14647 |
|
AMD Radeon (TM) Pro WX 3200 Series | 14637 |
|
ATI Radeon R9 M380 Compute Engine | 14617 |
|
AMD Radeon (TM) R9 M380 | 14552 |
|
Tesla K20Xm | 14541 |
|
Tesla K20m | 14510 |
|
AMD FirePro M6100 FireGL V | 14496 |
|
AMD Radeon HD Baffin Mobile GL PRO Prototype Compute Engine | 14438 |
|
AMD Radeon HD Emerald XT Prototype Compute Engine | 14424 |
|
Intel(R) Graphics [0x9a49] | 14403 |
|
AMD Radeon R9 M380 | 14383 |
|
NVIDIA GeForce GTX 760 Ti OEM | 14380 |
|
AMD Radeon R9 360 | 14269 |
|
AMD Radeon HD 7770 GHz Edition | 14263 |
|
ASUS R7 250X Series | 14262 |
|
GeForce GTX 770 | 14232 |
|
AMD Radeon(TM) RX Vega 11 Graphics | 14198 |
|
Intel(R) Iris(R) Xe Graphics | 14184 |
|
AMD Radeon HD Baffin Unknown Prototype Compute Engine | 14159 |
|
GeForce GTX 760 Ti OEM | 14104 |
|
Radeon (TM) Pro WX 4150 Graphics | 14094 |
|
Tesla K10 | 14029 |
|
Radeon RX 550 Series | 14002 |
|
ATI Radeon RX 550 Compute Engine | 13952 |
|
AMD FirePro W5100 | 13903 |
|
Radeon Pro 555X | 13877 |
|
GeForce MX350 | 13872 |
|
AMD Radeon Pro 555X Compute Engine | 13791 |
|
AMD 15D8:D8 | 13598 |
|
NVIDIA GeForce GTX 760 | 13578 |
|
NVIDIA GeForce MX350 | 13546 |
|
ATI Radeon HD Verde XT Prototype Compute Engine | 13536 |
|
AMD Radeon PRO Graphics | 13427 |
|
AMD Radeon HD Verde XT Prototype Compute Engine | 13323 |
|
AMD Radeon Pro 555 Compute Engine | 13281 |
|
AMD Radeon RX550 series | 13177 |
|
AMD Radeon Pro 455 Compute Engine | 13120 |
|
GeForce GTX 660 Ti | 13082 |
|
AMD Radeon HD Bonaire Unknown Prototype Compute Engine | 13020 |
|
AMD 15D8:CA | 12963 |
|
NVIDIA GeForce GTX 750 Ti | 12954 |
|
Radeon RX550/550 Series | 12899 |
|
AMD FirePro W5100 Graphics Adapter | 12896 |
|
GeForce GTX 750 Ti | 12753 |
|
AMD Radeon(TM) RX Vega 11 Processor Graphics | 12716 |
|
Radeon Pro 555 | 12661 |
|
AMD Radeon RX 550 | 12620 |
|
AMD Radeon HD 7700 Series | 12569 |
|
NVIDIA Quadro P620 | 12475 |
|
Quadro P620 | 12428 |
|
Radeon 550 Series | 12413 |
|
AMD FirePro W5000 | 12387 |
|
AMD Radeon(TM) Vega 11 Graphics | 12376 |
|
Radeon RX 550X | 12373 |
|
ATI Radeon Pro 555X Compute Engine | 12360 |
|
Intel(R) Gen12LP HD Graphics NEO | 12321 |
|
GeForce GTX 570 | 12316 |
|
AMD Radeon Pro 455 | 12263 |
|
NVIDIA GeForce GTX 960M | 12257 |
|
GeForce GTX 480 | 12241 |
|
GeForce GTX 960M | 12221 |
|
GeForce GTX 670 | 12174 |
|
ATI Radeon Pro 555 Compute Engine | 12044 |
|
NVIDIA Quadro K2200 | 12020 |
|
GeForce GTX 590 | 11950 |
|
Radeon(TM) RX 550 | 11927 |
|
AMD FirePro W5000 (FireGL V) Graphics Adapter | 11900 |
|
NVIDIA GeForce GTX 760 (192-bit) | 11889 |
|
ATI Radeon Pro 455 Compute Engine | 11888 |
|
AMD Radeon(TM) RX Vega 8 Graphics | 11842 |
|
Quadro K2200 | 11807 |
|
Radeon Instinct MI25 MxGPU | 11780 |
|
GRID M10-8Q | 11769 |
|
AMD Radeon(TM) Graphics | 11765 |
|
NVIDIA Quadro K4200 | 11745 |
|
Tesla M2090 | 11728 |
|
Tesla K10. G2.8GB | 11722 |
|
AMD Radeon RX Vega 11 Graphics | 11711 |
|
Tesla K10.G1.8GB | 11692 |
|
AMD MxGPU | 11673 |
|
AMD Radeon (TM) Pro WX 3200 Graphics | 11649 |
|
AMD Radeon R7 Series / HD 9000 Series | 11610 |
|
NVIDIA GeForce GTX 860M | 11550 |
|
AMD Radeon(TM) RX Vega11 Graphics | 11505 |
|
AMD Radeon(TM) Pro Graphics | 11475 |
|
AMD Radeon Pro WX3200 Graphics | 11392 |
|
Apple A12Z | 11391 |
|
NVIDIA GeForce GTX 660 | 11381 |
|
AMD Radeon (TM) RX 640 | 11375 |
|
Radeon (TM) RX 550X | 11324 |
|
AMD Radeon Pro WX 3100 | 11300 |
|
RadeonT 540X | 11219 |
|
NVIDIA Quadro P600 | 11181 |
|
AMD Radeon (TM) Graphics | 11140 |
|
AMD 15D8:C9 | 11132 |
|
AMD Radeon Pro WX 2100 | 11128 |
|
AMD Radeon R9 M275X | 11041 |
|
GeForce GTX 870M | 11021 |
|
AMD Radeon R7 350 Series | 10951 |
|
Unknown AMD GPU | 10943 |
|
AMD 15D8:D9 | 10898 |
|
Quadro M1200 | 10874 |
|
Radeon 550X Series | 10870 |
|
GRID K520 | 10864 |
|
GeForce GTX 760 | 10823 |
|
Quadro K2200M | 10787 |
|
GeForce GT 1030 | 10713 |
|
AMD Radeon R7 450 | 10702 |
|
AMD Radeon R7 200 Series | 10681 |
|
NVIDIA GeForce GTX 750 | 10644 |
|
NVIDIA GeForce GT 1030 | 10633 |
|
Radeon RX 540 | 10620 |
|
Quadro P600 | 10588 |
|
AMD Radeon Pro 450 Compute Engine | 10583 |
|
NVIDIA Quadro M1200 | 10582 |
|
Quadro M2000M | 10557 |
|
GeForce GTX 690 | 10541 |
|
AMD Radeon (TM) R9 350 | 10504 |
|
AMD Radeon R9 M370X Compute Engine | 10500 |
|
GeForce GTX 950A | 10489 |
|
GeForce MX330 | 10474 |
|
NVIDIA GeForce MX150 | 10459 |
|
AMD Radeon Pro 450 | 10419 |
|
GeForce GTX 860M | 10417 |
|
GeForce GTX 470 | 10408 |
|
AMD 15D8:DB | 10395 |
|
AMD Radeon (TM) R9 M375 | 10389 |
|
AMD Radeon(TM) 540 | 10366 |
|
GeForce GTX 750 | 10354 |
|
AMD Radeon R7 250 Series | 10280 |
|
ATI Radeon R9 M370X Compute Engine | 10272 |
|
AMD Radeon(TM) R9 M375 | 10271 |
|
AMD Radeon 550X | 10242 |
|
GeForce GTX 660 | 10214 |
|
AMD Radeon Pro WX 2100 Graphics | 10201 |
|
NVIDIA GeForce MX250 | 10197 |
|
GeForce MX250 | 10178 |
|
NVIDIA GeForce GTX 950M | 10170 |
|
GeForce MX150 | 10156 |
|
Intel(R) Iris(R) Xe Graphics [0x9a49] | 10156 |
|
AMD Radeon(TM) RX 540 | 10040 |
|
NVIDIA GeForce GTX 850M | 10030 |
|
GeForce GTX 950M | 9985 |
|
Quadro K4200 | 9983 |
|
GeForce GTX 850M | 9960 |
|
AMD Radeon HD Verde PRO Prototype Compute Engine | 9912 |
|
Tesla C2075 | 9885 |
|
AMD Radeon HD 8800M Series | 9852 |
|
AMD Radeon R9 M370X | 9812 |
|
AMD Radeon HD Venus XTX Prototype Compute Engine | 9782 |
|
AMD Radeon HD 7800M Series | 9761 |
|
AMD Radeon (TM) R9 M375X | 9759 |
|
ATI Radeon Pro 450 Compute Engine | 9754 |
|
Tesla C2070 | 9716 |
|
NVIDIA GeForce MX330 | 9705 |
|
Intel(R) Iris(R) Pro Graphics P580 | 9690 |
|
AMD Radeon (TM) 630 | 9651 |
|
AMD Radeon(TM) Vega 10 Graphics | 9635 |
|
GeForce GTX 760 (192-bit) | 9616 |
|
AMD Radeon(TM) Vega 9 Graphics | 9600 |
|
Radeon Pro WX 3100 | 9508 |
|
AMD Radeon(TM) Vega 10 Mobile Graphics | 9499 |
|
NVIDIA GeForce GTX 650 Ti BOOST | 9450 |
|
AMD FirePro M6000 Mobility Pro Graphics | 9420 |
|
AMD Radeon(TM) RX Vega 10 Graphics | 9418 |
|
AMD Radeon (TM) R9 M360 | 9392 |
|
AMD 15D8:CB | 9362 |
|
AMD FirePro M5100 | 9305 |
|
AMD Radeon (TM) R7 350 | 9271 |
|
GeForce GTX 560 Ti | 9263 |
|
Intel(R) UHD Graphics 770 | 9253 |
|
Intel(R) Graphics Gen12LP [0x9a49] | 9252 |
|
Radeon(TM) 540X | 9234 |
|
GeForce GTX 680 | 9200 |
|
Intel(R) Iris(TM) Pro Graphics P580 | 9182 |
|
AMD Radeon 540X Series | 9084 |
|
AMD Radeon HD 8870M | 9065 |
|
AMD FirePro M5100 FireGL V | 9045 |
|
AMD Radeon R9 M265X | 9044 |
|
Quadro K1200 | 9031 |
|
Quadro 6000 | 8990 |
|
Radeon RX Vega 8 Graphics | 8941 |
|
Quadro M1000M | 8927 |
|
AMD Radeon(TM) R7 250 | 8916 |
|
NVIDIA Quadro M1000M | 8849 |
|
Radeon 540X Series | 8847 |
|
Quadro M620 | 8815 |
|
AMD FirePro W5170M | 8775 |
|
AMD Radeon(TM) Vega 8 Graphics | 8763 |
|
AMD Radeon(TM) R7 350X | 8761 |
|
Intel(R) AlderLake-S Mobile Graphics Controller | 8753 |
|
AMD Radeon R9 M200X Series | 8722 |
|
Radeon RX 540 Series | 8717 |
|
Intel(R) Iris(R) Pro Graphics 580 | 8684 |
|
Radeon 500 Series | 8536 |
|
Samsung Xclipse 920 | 8523 |
|
ATI Radeon HD Verde PRO Prototype Compute Engine | 8464 |
|
GeForce GTX 880M | 8454 |
|
GeForce GTX 680M | 8385 |
|
GeForce GTX 650 Ti BOOST | 8317 |
|
GRID K2 | 8287 |
|
Radeon(TM) 540 Graphics | 8270 |
|
AMD Radeon(TM) 540X | 8254 |
|
NVIDIA Quadro M2000M | 8148 |
|
Quadro P520 | 8138 |
|
GeForce 945M | 8099 |
|
GeForce GTX 560 | 8094 |
|
NVIDIA GeForce GTX 650 Ti | 8083 |
|
GeForce GTX 465 | 8081 |
|
AMD Radeon HD 8850M | 8067 |
|
AMD Radeon(TM) Vega 8 Mobile Graphics | 7960 |
|
Intel(R) Gen12 Mobile Graphics Controller | 7958 |
|
NVIDIA GeForce GPU | 7910 |
|
GeForce GTX 460 v2 | 7872 |
|
AMD Radeon R7 M370 | 7863 |
|
Radeon 540 | 7820 |
|
AMD Radeon(TM) R7 200 Series Graphics | 7799 |
|
Intel(R) UHD Graphics 750 | 7782 |
|
AMD FirePro W5130M | 7779 |
|
AMD Radeon HD Verde Unknown Prototype Compute Engine | 7752 |
|
Quadro K5100M | 7697 |
|
GeForce GPU | 7679 |
|
Radeon (TM) RX 550 | 7641 |
|
Intel(R) Iris(R) Plus Graphics 645 | 7638 |
|
Radeon (TM) Pro WX 4130 Graphics | 7588 |
|
Intel(R) Iris(R) Plus Graphics | 7576 |
|
Intel(R) Iris(TM) Plus Graphics | 7546 |
|
AMD Radeon HD 8700M Series | 7496 |
|
Intel(R) Iris(TM) Pro Graphics 580 | 7470 |
|
Intel(R) Iris(R) Plus Graphics 655 | 7413 |
|
Intel(R) Iris(TM) Plus Graphics 655 | 7357 |
|
Radeon(TM) R7 M465 | 7339 |
|
AMD Radeon R7 M460 | 7310 |
|
AMD Radeon (TM) R7 M370 | 7308 |
|
AMD Radeon HD Chelsea PRO Prototype Compute Engine | 7269 |
|
Intel(R) Iris(TM) Plus Graphics 645 | 7232 |
|
NVIDIA GeForce MX130 | 7199 |
|
AMD Radeon(TM) 540 Graphics | 7196 |
|
GeForce MX130 | 7176 |
|
GeForce MX230 | 7146 |
|
Quadro K5000 | 7115 |
|
Intel(R) Iris(TM) Plus Graphics 650 | 7106 |
|
GeForce GTX 650 Ti | 7101 |
|
AMD Radeon(TM) 535 | 7082 |
|
AMD Radeon R5 435 | 7050 |
|
AMD Radeon HD 8790M | 7019 |
|
AMD Radeon(TM) Vega 6 Graphics | 7003 |
|
AMD Radeon Graphics | 6977 |
|
Radeon (TM) 530 | 6960 |
|
AMD Radeon HD 7700M Series | 6944 |
|
Intel(R) UHD Graphics 730 | 6934 |
|
AMD Radeon R7 Graphics + R7 200 Dual Graphics | 6922 |
|
Quadro M520 | 6889 |
|
AMD Radeon HD 8570 | 6887 |
|
Radeon 520 Series | 6870 |
|
NVIDIA Quadro K620 | 6869 |
|
NVIDIA GeForce MX230 | 6837 |
|
NVIDIA Quadro K4000 | 6816 |
|
AMD Radeon R7 M270 | 6810 |
|
AMD Radeon HD Venus LE Prototype Compute Engine | 6801 |
|
AMD Radeon HD 8600/8700M | 6791 |
|
AMD Radeon HD 7730M | 6787 |
|
AMD Radeon R7 M265 Series | 6785 |
|
Radeon (TM) 535 | 6758 |
|
AMD Radeon R7 430 | 6738 |
|
Radeon 535 Series | 6698 |
|
Mali-G78 r0p1 | 6692 |
|
Quadro K620 | 6679 |
|
Renoir | 6666 |
|
Mali-G710 MC10 r0p0 | 6666 |
|
AMD Radeon (TM) 625 | 6656 |
|
GeForce GTX 460 | 6630 |
|
Intel(R) Iris(TM) Plus Graphics 640 | 6601 |
|
GeForce GTX 770M | 6585 |
|
NVIDIA GeForce 940MX | 6582 |
|
AMD FirePro W4100 | 6575 |
|
Intel(R) Iris(R) Graphics 550 | 6574 |
|
AMD Radeon HD 8750M | 6508 |
|
AMD FirePro M4000 | 6494 |
|
AMD Radeon R5 M435 | 6493 |
|
AMD FirePro W4100 (FireGL V) Graphics Adapter | 6465 |
|
AMD FirePro W4100 Graphics Adapter | 6434 |
|
GeForce 940MX | 6420 |
|
Radeon (TM) 520 | 6363 |
|
AMD FirePro M4170 | 6347 |
|
Radeon 520 | 6311 |
|
GeForce GTX 745 | 6300 |
|
Intel(R) Iris(TM) Pro Graphics P6300 | 6273 |
|
Intel(R) Iris(TM) Graphics 540 | 6252 |
|
Intel(R) UHD Graphics P630 [0x3e96] | 6248 |
|
AMD Radeon R7 M365X | 6237 |
|
AMD Radeon HD 8730M | 6236 |
|
GeForce GTX 560 SE | 6235 |
|
Quadro 5000 | 6232 |
|
Intel(R) Iris(TM) Graphics 550 | 6213 |
|
NVIDIA GeForce 940M | 6193 |
|
Quadro K620M | 6165 |
|
NVIDIA GeForce GTX 745 | 6145 |
|
GeForce 845M | 6112 |
|
AMD Radeon R7 Graphics | 6100 |
|
Quadro P500 | 6086 |
|
Intel(R) Iris(TM) Graphics 650 | 6046 |
|
GeForce GTX 670MX | 6033 |
|
GeForce 940M | 5994 |
|
AMD Radeon R7 M260X | 5979 |
|
Quadro M600M | 5969 |
|
NVIDIA GeForce 840M | 5938 |
|
Quadro M500M | 5929 |
|
AMD Radeon (TM) R7 M350 | 5924 |
|
Radeon (TM) R7 M445 | 5920 |
|
AMD Radeon (TM) 620 | 5914 |
|
Intel(R) UHD Graphics P630 | 5908 |
|
Radeon 530 Series | 5905 |
|
AMD Radeon HD 8690M | 5887 |
|
Intel(R) Iris(R) Graphics 540 | 5885 |
|
AMD Radeon R7 M440 | 5879 |
|
AMD Radeon(TM) 530 series | 5879 |
|
AMD Radeon R5 M445 Series | 5875 |
|
Quadro K4000 | 5875 |
|
Radeon(TM) 520 | 5871 |
|
AMD Radeon (TM) HD 8500M/8700M | 5860 |
|
AMD Radeon R5 430 | 5855 |
|
GeForce GTX 580M | 5837 |
|
AMD Radeon R7 A360 | 5809 |
|
Intel(R) Iris(R) Plus Graphics 650 | 5792 |
|
GeForce GTX 670M | 5785 |
|
Intel(R) Gen9 HD Graphics NEO | 5784 |
|
AMD Radeon R7 M260 Series | 5767 |
|
GeForce 930MX | 5764 |
|
NVIDIA GeForce 930MX | 5754 |
|
GeForce GTX 675M | 5752 |
|
GeForce 840M | 5751 |
|
AMD FirePro W4190M | 5705 |
|
Quadro P400 | 5692 |
|
AMD Radeon R5 M200 Series | 5671 |
|
AMD Radeon(TM) R7 Graphics | 5659 |
|
GeForce GTX880M | 5622 |
|
Intel(R) HD Graphics Gen9 | 5603 |
|
AMD Radeon R8 M365DX | 5601 |
|
AMD Radeon HD 6900 Series | 5599 |
|
Radeon (TM) R7 M440 | 5598 |
|
AMD Radeon(TM) 530 | 5597 |
|
GeForce 840A | 5596 |
|
AMD Radeon R7 M265 | 5587 |
|
GeForce GTX 760M | 5553 |
|
AMD Radeon (TM) HD 8670M | 5532 |
|
AMD FirePro W4170M (FireGL V) | 5507 |
|
AMD Radeon (TM) R5 340 | 5498 |
|
AMD Radeon HD 8600M Series | 5491 |
|
AMD Radeon HD 5800 Series | 5466 |
|
AMD Radeon (TM) 520 | 5463 |
|
AMD Radeon R7 Series | 5453 |
|
AMD Radeon R5 M330 | 5430 |
|
AMD FirePro (TM) W4190M | 5401 |
|
AMD Radeon (TM) R7 M360 | 5396 |
|
AMD Radeon R7 M340 | 5396 |
|
Radeon (TM) HD 8670M | 5396 |
|
Intel(R) UHD Graphics | 5365 |
|
GeForce GTX 460 SE | 5358 |
|
AMD Radeon R5 M230 Series | 5344 |
|
AMD Radeon(TM) R5 340X | 5341 |
|
AMD Radeon HD 5900 Series | 5338 |
|
NVIDIA GeForce 930M | 5333 |
|
AMD Radeon R7 240 Series | 5326 |
|
GeForce 930A | 5317 |
|
AMD Radeon(TM) R5 M430 | 5314 |
|
AMD Radeon (TM) R5 M430 | 5305 |
|
GeForce GTX 550 Ti | 5305 |
|
AMD Radeon (TM) R5 M330 | 5304 |
|
GeForce GTX 765M | 5299 |
|
AMD Radeon (TM) 535DX | 5277 |
|
AMD Radeon(TM) R7 M440 | 5276 |
|
AMD Radeon R7 M260 | 5269 |
|
Radeon(TM) 530 | 5258 |
|
AMD Radeon 610 Series | 5258 |
|
AMD Radeon HD 6950 | 5252 |
|
AMD Radeon R7 M360 | 5243 |
|
Intel(R) Graphics [0x9b41] | 5242 |
|
GeForce 930M | 5217 |
|
Intel(R) Iris(R) Plus Graphics 640 | 5217 |
|
NVIDIA GeForce GTX 645 | 5217 |
|
AMD Radeon HD 8500 series | 5216 |
|
Quadro K4100M | 5215 |
|
GeForce GTX 780M | 5211 |
|
Intel(R) HD Graphics P630 | 5190 |
|
AMD Radeon(TM) R8 M445DX | 5183 |
|
AMD Radeon (TM) R5 M320 | 5175 |
|
AMD Radeon R7 240 | 5157 |
|
AMD Radeon (TM) R5 M335 | 5143 |
|
AMD Radeon (TM) R7 M340 | 5142 |
|
Radeon 620 Series | 5117 |
|
Quadro K5000M | 5107 |
|
Intel(R) Iris(TM) Pro Graphics 5200 | 5106 |
|
AMD Radeon (TM) 530 | 5099 |
|
Intel(R) UHD Graphics 630 | 5095 |
|
AMD Firepro M4100 | 5067 |
|
AMD FirePro M4150 | 5063 |
|
Mali-G77 MC9 r0p1 | 5061 |
|
AMD Radeon(TM) R5 240 | 5055 |
|
AMD 15D8:CC | 5048 |
|
Radeon 530 | 5015 |
|
AMD Radeon R5 M255 | 5013 |
|
Intel(R) Graphics [0x5917] | 4994 |
|
AMD Radeon HD 8670M | 4963 |
|
Radeon (TM) R5 M430 | 4951 |
|
AMD Radeon HD 6870 | 4950 |
|
Intel(R) Iris(TM) Pro Graphics 6200 | 4913 |
|
AMD Radeon R5 M335 | 4912 |
|
Intel(R) HD Graphics 630 | 4894 |
|
ATI FirePro V7800 (FireGL) Graphics Adapter | 4894 |
|
Intel(R) Graphics Gen9 [0x5916] | 4884 |
|
Mali-G77 r0p1 | 4875 |
|
AMD Radeon R5 Graphics | 4869 |
|
AMD Radeon HD 8500M Series | 4861 |
|
Intel(R) HD Graphics P530 | 4854 |
|
Intel(R) UHD Graphics 620 | 4848 |
|
AMD Radeon (TM) R7 Graphics | 4845 |
|
AMD Radeon(TM) R7 M360 | 4810 |
|
Quadro K4000M | 4763 |
|
AMD Radeon (TM) R7 M260 | 4721 |
|
NVIDIA GeForce GTX 650 | 4712 |
|
Intel(R) Graphics [0x3ea0] | 4685 |
|
AMD FirePro W2100 (FireGL V) Graphics Adapter | 4650 |
|
AMD Radeon HD 8570M | 4646 |
|
AMD Radeon(TM) R5 M330 | 4639 |
|
Intel(R) LakeField Mobile Graphics Controller | 4636 |
|
GeForce MX110 | 4623 |
|
AMD Radeon R8 M535DX | 4620 |
|
Intel(R) HD Graphics 530 | 4602 |
|
NVIDIA GeForce MX110 | 4598 |
|
GeForce GTX 680MX | 4568 |
|
AMD Radeon R5 M230 | 4565 |
|
KBL Graphics | 4506 |
|
GeForce GTS 450 | 4501 |
|
Intel(R) HD Graphics 620 | 4496 |
|
Mali-G610 MC6 r0p0 | 4483 |
|
AMD Radeon(TM) Vega 3 Mobile Graphics | 4468 |
|
AMD FirePro W2100 | 4425 |
|
GeForce GTX 775M | 4424 |
|
NVIDIA GeForce 830M | 4422 |
|
Iris Pro | 4419 |
|
GeForce 830M | 4413 |
|
AMD Radeon HD 8500M | 4412 |
|
AMD Radeon R6 Graphics | 4403 |
|
Mali-G76 r0p0 | 4399 |
|
AMD Radeon(TM) Vega 3 Graphics | 4396 |
|
Radeon(TM) Vega 3 Graphics | 4342 |
|
NVIDIA GeForce 830A | 4315 |
|
AMD Radeon HD 6800 Series | 4310 |
|
AMD FirePro W2100 Graphics Adapter | 4303 |
|
GeForce GTX 560M | 4284 |
|
Intel(R) UHD Graphics 710 | 4265 |
|
NVIDIA GeForce GT 740 | 4243 |
|
Intel(R) HD Graphics 520 | 4231 |
|
Quadro 4000M | 4216 |
|
NVIDIA GeForce 920MX | 4210 |
|
Quadro 4000 | 4183 |
|
GeForce 920MX | 4165 |
|
Intel(R) Iris(TM) Graphics 5100 | 4150 |
|
Radeon (TM) R5 M420 | 4143 |
|
AMD Radeon(TM) R6 Graphics | 4128 |
|
GeForce GTX 675MX | 4095 |
|
NVIDIA Quadro K2000 | 4071 |
|
SKL Graphics | 4048 |
|
Intel(R) UHD Graphics 617 | 4005 |
|
GeForce GTX 645 | 4002 |
|
Intel(R) HD Graphics 6000 | 3987 |
|
AMD Radeon HD 6850 X2 | 3977 |
|
AMD Radeon (TM) R5 M315 | 3930 |
|
Iris | 3909 |
|
NVIDIA GeForce GT 640 | 3876 |
|
GeForce GTX 650 | 3819 |
|
Mali-G76 | 3785 |
|
Intel(R) UHD Graphics 615 | 3773 |
|
NVIDIA GeForce GT 635 | 3732 |
|
GeForce GT 635 | 3724 |
|
AMD Radeon R5 M240 | 3721 |
|
NVIDIA GeForce GT 730 | 3690 |
|
GeForce GTX 660M | 3649 |
|
Intel(R) HD Graphics 615 | 3612 |
|
Quadro K2000D | 3602 |
|
GeForce GT 740M | 3590 |
|
Intel(R) Iris(TM) Graphics 6100 | 3575 |
|
AMD Radeon R5 M315 | 3573 |
|
GeForce GT 735M | 3550 |
|
Quadro K2000 | 3550 |
|
Quadro K3100M | 3517 |
|
GeForce GTX 460M | 3483 |
|
GeForce GT 745M | 3470 |
|
GeForce 920M | 3462 |
|
Intel(R) HD Graphics 5000 | 3444 |
|
NVIDIA GeForce GT 730M | 3437 |
|
HD Graphics 5000 | 3417 |
|
AMD Radeon (TM) R6 Graphics | 3411 |
|
Mali-G610 r0p0 | 3382 |
|
AMD Radeon HD 6970M | 3349 |
|
Intel(R) HD Graphics 515 | 3332 |
|
ATI Radeon HD 5700 Series | 3318 |
|
GeForce GT 740 | 3307 |
|
Intel HD Graphics Family | 3278 |
|
Intel(R) Gen8 HD Graphics NEO | 3277 |
|
AMD Radeon HD 6700 Series | 3275 |
|
AMD Radeon HD 6770 | 3269 |
|
GeForce GT 545 | 3261 |
|
AMD Radeon HD 6900M Series | 3259 |
|
Quadro 2000 | 3240 |
|
Quadro 2000D | 3236 |
|
Mali-G77 MC7 r0p1 | 3229 |
|
AMD Radeon HD 5700 Series | 3221 |
|
AMD Radeon(TM) Vega 2 Graphics | 3208 |
|
Quadro K2100M | 3163 |
|
Intel(R) HD Graphics P4600 | 3147 |
|
Intel(R) UHD Graphics 610 | 3139 |
|
ATI FirePro V (FireGL V) Graphics Adapter | 3109 |
|
GeForce 730A | 3088 |
|
Intel(R) HD Graphics 4600 | 3076 |
|
AMD Radeon(TM) R5 Graphics | 3054 |
|
GeForce GT 640 | 3045 |
|
GeForce GT 730M | 3044 |
|
Mali-G72 | 3044 |
|
GeForce GT 730 | 2985 |
|
Quadro K3000M | 2958 |
|
AMD Radeon R7E Graphics | 2945 |
|
AMD Radeon R6 | 2934 |
|
Mali-G57 MC5 r0p0 | 2928 |
|
Quadro 3000M | 2894 |
|
AMD FirePro V5900 (FireGL V) Graphics Adapter | 2880 |
|
Intel(R) HD Graphics 5600 | 2872 |
|
Intel(R) HD Graphics 610 | 2823 |
|
Quadro 2000M | 2794 |
|
Intel(R) HD Graphics Gen11 | 2751 |
|
ATI FirePro V5800 (FireGL) Graphics Adapter | 2740 |
|
GeForce 820A | 2708 |
|
Intel(R) HD Graphics 510 | 2699 |
|
NVIDIA GeForce GT 630 | 2654 |
|
Mali-G68 MC4 r1p1 | 2641 |
|
GeForce 710A | 2638 |
|
GeForce GT 555M | 2629 |
|
GeForce 910M | 2629 |
|
Mali-G71 | 2628 |
|
AMD Radeon HD 5600/5700 | 2586 |
|
Quadro K2000M | 2575 |
|
Intel(R) HD Graphics 5500 | 2564 |
|
Mali-G68 r1p1 | 2527 |
|
AMD Radeon HD 6800M Series | 2490 |
|
GeForce GT 640M | 2485 |
|
GeForce GT 645M | 2445 |
|
AMD Mobility Radeon HD 5800 Series | 2443 |
|
QUALCOMM Adreno(TM) | 2381 |
|
GeForce GT 440 | 2380 |
|
GeForce GT 720 | 2372 |
|
NVIDIA GeForce GT 720 | 2372 |
|
GeForce 820M | 2347 |
|
AMD Radeon (TM) R5 Graphics | 2316 |
|
Intel(R) HD Graphics 4400 | 2299 |
|
Mali-G57 r0p0 | 2273 |
|
Radeon RX 350 Series | 2251 |
|
Quadro K1100M | 2245 |
|
GeForce GT 625M | 2229 |
|
Intel(R) HD Graphics 520 [0x1916] | 2201 |
|
GeForce GT 755M | 2199 |
|
Mali-TNAX r0p0 | 2167 |
|
AMD Radeon HD 8670D | 2159 |
|
NVS 5400M | 2151 |
|
GeForce GT 550M | 2137 |
|
Mali-G57 MC4 r0p0 | 2134 |
|
GeForce GT 710M | 2103 |
|
GeForce GT 630 | 2079 |
|
NVIDIA GeForce GT 710 | 2079 |
|
Mali-G76 MC4 r0p0 | 2066 |
|
AMD Radeon R5 | 2058 |
|
GeForce GT 720M | 2056 |
|
GeForce GT 710 | 2026 |
|
AMD Radeon HD 7660D | 2017 |
|
Mali-G57 r0p1 | 2008 |
|
GeForce GT625M | 1994 |
|
AMD Radeon(TM) R5E Graphics | 1991 |
|
GeForce 710M | 1976 |
|
GRID K1 | 1976 |
|
GeForce GT 430 | 1974 |
|
GeForce GT 750M | 1958 |
|
AMD Radeon(TM) R4 Graphics | 1952 |
|
GeForce GT 530 | 1947 |
|
Mali-G57 MC3 r0p0 | 1937 |
|
GeForce GT 640M LE | 1915 |
|
Mali-G76 MC4 | 1906 |
|
GeForce GT 635M | 1901 |
|
Intel(R) HD Graphics 5300 | 1901 |
|
Intel(R) HD Graphics 4200 | 1893 |
|
Mali-G52 | 1866 |
|
GeForce GT 630M | 1860 |
|
Quadro 600 | 1849 |
|
Quadro K610M | 1833 |
|
GeForce 810A | 1828 |
|
GeForce GT 540M | 1797 |
|
AMD Radeon HD 8400 / R3 Series | 1796 |
|
GeForce GT 650M | 1793 |
|
Mali-G72 r0p1 | 1768 |
|
Intel(R) HD Graphics 405 | 1751 |
|
Intel(R) UHD Graphics 605 | 1749 |
|
AMD Radeon HD 8650G | 1735 |
|
AMD Radeon HD 8330 | 1726 |
|
AMD Radeon HD 7660G | 1714 |
|
AMD Radeon Series | 1681 |
|
AMD FirePro V4900 (FireGL V) Graphics Adapter | 1666 |
|
AMD Radeon HD 6670 | 1657 |
|
GeForce 810M | 1644 |
|
GeForce GT 435M | 1634 |
|
Mali-T880 | 1617 |
|
GeForce GT 620M | 1605 |
|
Quadro 1000M | 1598 |
|
Quadro K1000M | 1590 |
|
GeForce GT 425M | 1581 |
|
Quadro K600 | 1572 |
|
AMD Radeon(TM) R3 Graphics | 1569 |
|
GeForce GT 525M | 1562 |
|
NVS 5200M | 1556 |
|
ATI Radeon HD 5870 | 1531 |
|
AMD Radeon HD 8570D | 1521 |
|
AMD Radeon HD 5670 | 1508 |
|
GeForce GT 820M | 1508 |
|
Quadro K420 | 1507 |
|
AMD FirePro M5950 | 1505 |
|
AMD Radeon HD 7600 Series | 1497 |
|
AMD Radeon(TM) HD 8610G | 1490 |
|
ATI FirePro V4800 (FireGL) Graphics Adapter | 1490 |
|
AMD Radeon HD 8610G | 1463 |
|
AMD Radeon HD 8400 | 1453 |
|
Mali-G57 MC2 r0p1 | 1453 |
|
AMD Radeon HD 7560D | 1450 |
|
Quadro 410 | 1446 |
|
NVS 510 | 1436 |
|
Intel(R) HD Graphics 505 | 1433 |
|
AMD Radeon HD 7570M/HD 7670M Graphics | 1416 |
|
AMD Radeon HD 6570 | 1404 |
|
AMD Radeon HD 6700M Series | 1398 |
|
AMD FirePro V3900 | 1395 |
|
AMD Radeon HD 8510G | 1370 |
|
AMD Radeon HD 8550G | 1360 |
|
AMD Radeon HD 7500 Series | 1352 |
|
GeForce GT 625 (OEM) | 1345 |
|
AMD Radeon HD 7570 | 1344 |
|
GeForce GT 620 | 1337 |
|
AMD Radeon(TM) HD 8510G | 1335 |
|
GeForce GT 420M | 1334 |
|
ATI Radeon Barts XT Prototype | 1333 |
|
GeForce 800M | 1303 |
|
Intel(R) UHD Graphics 600 | 1297 |
|
AMD Radeon HD 5570 | 1275 |
|
AMD Radeon HD 6600A Series | 1274 |
|
ATI Radeon HD 5570 | 1267 |
|
AMD Radeon(TM) HD 7650A Graphics | 1261 |
|
AMD Radeon HD 6500 Series | 1256 |
|
AMD Radeon HD 7640G | 1255 |
|
AMD Radeon HD 7600M Series | 1249 |
|
AMD Radeon HD 7670M | 1247 |
|
GeForce GT 705 | 1247 |
|
Intel(R) HD Graphics 400 | 1243 |
|
AMD Radeon HD 7690M | 1242 |
|
AMD Radeon HD 7620G | 1232 |
|
AMD Radeon(TM) R2 Graphics | 1230 |
|
Mali-G72 MP3 r0p3 | 1222 |
|
AMD Radeon(TM) HD 8330E | 1214 |
|
AMD Mobility Radeon HD 5000 | 1212 |
|
Mali-G72 r0p3 | 1212 |
|
AMD Radeon(TM) HD 8280E | 1210 |
|
AMD Radeon HD 6550D | 1189 |
|
GeForce GT 610 | 1164 |
|
GeForce 615 | 1162 |
|
NVS 4200M | 1155 |
|
GeForce GT 520 | 1139 |
|
AMD Radeon HD 8200 / R3 Series | 1137 |
|
AMD Radeon 6600M and 6700M Series | 1118 |
|
AMD Radeon HD 8470D | 1115 |
|
Mali-G72 MP3 | 1113 |
|
AMD Mobility Radeon HD 5000 Series | 1101 |
|
Mali-G52 r1p0 | 1101 |
|
AMD Radeon HD 7600G | 1086 |
|
GeForce 610M | 1086 |
|
AMD Radeon HD 5500 Series | 1085 |
|
GeForce GT 520MX | 1081 |
|
Mali-G52 MC2 r1p0 | 1079 |
|
AMD Radeon HD 8250 | 1075 |
|
AMD Radeon HD 7540D | 1073 |
|
Intel(R) HD Graphics P4000 | 1071 |
|
Intel(R) HD Graphics 500 | 1070 |
|
AMD Mobility Radeon HD 5570 | 1070 |
|
AMD Radeon HD 7500M/7600M Series | 1062 |
|
GeForce GT 420 | 1055 |
|
AMD Radeon HD 7650M | 1043 |
|
ATI Radeon HD 6970M | 1028 |
|
GeForce GT 625 | 1026 |
|
GeForce GT 520M | 1013 |
|
AMD Radeon HD 7570M | 1004 |
|
ATI Radeon HD 5770 | 1000 |
|
Mali-G51 | 992 |
|
Mali-T760 | 992 |
|
HD Graphics 4000 | 990 |
|
AMD Radeon HD 8450G | 984 |
|
AMD Radeon HD 8240 | 978 |
|
AMD Radeon HD 7520G | 966 |
|
Intel(R) HD Graphics | 965 |
|
Intel(R) HD Graphics 530 [0x1912] | 962 |
|
Intel(R) HD Graphics 4000 | 947 |
|
Mali-G52 MC2 | 932 |
|
AMD Radeon HD 7500/7600 Series | 928 |
|
AMD Radeon(TM) HD 8490 | 897 |
|
GeForce 410M | 872 |
|
AMD Radeon HD 8490 | 869 |
|
AMD Radeon HD 6620G | 863 |
|
ATI Radeon HD 5750 | 859 |
|
NVS 310 | 851 |
|
NVS 315 | 851 |
|
AMD Radeon HD 6530D | 845 |
|
AMD Radeon HD 7500G | 824 |
|
Intel(R) UHD Graphics 600 [0x3185] | 822 |
|
Mali-G71 r0p0 | 817 |
|
AMD Radeon(TM) HD8490 | 816 |
|
AMD Radeon HD 7470 | 791 |
|
AMD Radeon HD 7000 series | 790 |
|
AMD Radeon HD 8470 | 785 |
|
AMD Radeon HD 8210 | 784 |
|
AMD Radeon HD 8370D | 783 |
|
AMD Radeon R5 235 | 779 |
|
GeForce 605 | 764 |
|
GeForce 510 | 758 |
|
AMD Radeon HD 7480D | 751 |
|
GeForce GT 415M | 751 |
|
AMD Radeon HD 6470M | 747 |
|
AMD Radeon HD 7400M Series | 726 |
|
Mali-G71 MP2 r0p0 | 724 |
|
AMD Radeon HD 6520G | 704 |
|
AMD Radeon HD 7420G | 675 |
|
AMD Radeon(TM) HD 7450A Graphics | 668 |
|
AMD RADEON HD5450 | 656 |
|
AMD Radeon HD 7450 | 642 |
|
ASUS R5 230 Series | 641 |
|
AMD Radeon HD 7400 Series | 634 |
|
AMD Radeon HD 7450 Graphics | 633 |
|
Mali-G52 r0p0 | 633 |
|
AMD Radeon HD 6450 | 632 |
|
AMD Radeon(TM) HD 7450 | 625 |
|
AMD Radeon R5 200 Series | 619 |
|
AMD Radeon HD 6480G | 618 |
|
AMD Radeon HD 6410D | 610 |
|
AMD Radeon HD 7400G | 592 |
|
AMD Radeon(TM) HD 6480G | 568 |
|
Mali-G52 MC1 | 531 |
|
Mali-T860 | 502 |
|
AMD Radeon HD 7450M | 476 |
|
AMD Radeon HD 6300M Series | 456 |
|
ATI Radeon HD 6770M | 448 |
|
Mali-T830 | 437 |
|
AMD Radeon HD 6380G | 426 |
|
ATI Radeon HD 6750M | 405 |
|
Intel(R) HD Graphics 2500 | 401 |
|
Mali-T628 | 399 |
|
AMD Radeon HD 5450 | 392 |
|
AMD Radeon HD 7340 Graphics | 389 |
|
ATI Radeon HD 5400 Series | 385 |
|
AMD Radeon HD 6320 Graphics | 354 |
|
AMD Radeon HD 7310 Graphics | 312 |
|
AMD Radeon HD 6310 Graphics | 302 |
|
AMD Radeon HD 6290 Graphics | 220 |
|
Mali-T720 | 182 |
|
Nvidia GeForce 940MX vs Nvidia GeForce GTX 750 Ti: What is the difference?
29points
Nvidia GeForce 940MX
41points
Nvidia GeForce GTX 750 Ti
EVGAEVGA Superclocked
vs
54 facts in comparison
Nvidia GeForce 940MX
Nvidia GeForce GTX 750 Ti
Why is Nvidia GeForce 940MX better than Nvidia GeForce GTX 750 Ti?
- 102MHz faster GPU clock speed?
1122MHzvs1020MHz - 37W lower TDP?
23Wvs60W - 0. 8 newer version of DirectX?
12vs11.2 - 157MHz faster GPU turbo speed?
1242MHzvs1085MHz - 0.1 newer version of OpenCL?
1.2vs1.1
Why is Nvidia GeForce GTX 750 Ti better than Nvidia GeForce 940MX?
- 0.35 TFLOPS higher floating-point performance?
1.31 TFLOPSvs0.95 TFLOPS - 6.36 GPixel/s higher pixel rate?
16.3 GPixel/svs9.94 GPixel/s - 349MHz faster memory clock speed?
1350MHzvs1001MHz - 3398MHz higher effective memory clock speed?
5400MHzvs2002MHz - 10.99 GTexels/s higher texture rate?
40.8 GTexels/svs29.81 GTexels/s - 70.38GB/s more memory bandwidth?
86.4GB/svs16.02GB/s - 64bit wider memory bus width?
128bitvs64bit - 256 more shading units?
640vs384
Which are the most popular comparisons?
Nvidia GeForce 940MX
vs
Nvidia GeForce GTX 1050
Nvidia GeForce GTX 750 Ti
vs
AMD Radeon RX 550
Nvidia GeForce 940MX
vs
Nvidia GeForce MX150
Nvidia GeForce GTX 750 Ti
vs
Nvidia GeForce GTX 1050
Nvidia GeForce 940MX
vs
Nvidia GeForce MX350
Nvidia GeForce GTX 750 Ti
vs
MSI Radeon RX 580
Nvidia GeForce 940MX
vs
Nvidia GeForce MX130
Nvidia GeForce GTX 750 Ti
vs
Nvidia GeForce GT 1030 DDR4
Nvidia GeForce 940MX
vs
Nvidia GeForce MX330
Nvidia GeForce GTX 750 Ti
vs
AMD Radeon Vega 8
Nvidia GeForce 940MX
vs
AMD Radeon RX Vega 8
Nvidia GeForce GTX 750 Ti
vs
Nvidia GeForce GTX 1650
Nvidia GeForce 940MX
vs
Nvidia GeForce MX250
Nvidia GeForce GTX 750 Ti
vs
AMD Radeon RX 6400
Nvidia GeForce 940MX
vs
Nvidia GeForce GTX 670
Nvidia GeForce GTX 750 Ti
vs
Nvidia GeForce GTX 960
Nvidia GeForce 940MX
vs
Nvidia GeForce GTX 960
Nvidia GeForce GTX 750 Ti
vs
Nvidia GeForce GTX 750
Nvidia GeForce GTX 750 Ti
vs
Zotac GeForce GTX 1050 Ti OC Edition
Price comparison
User reviews
Overall Rating
Nvidia GeForce 940MX
0 User reviews
Nvidia GeForce 940MX
0. 0/10
0 User reviews
Nvidia GeForce GTX 750 Ti
2 User reviews
Nvidia GeForce GTX 750 Ti
10.0/10
2 User reviews
Features
Value for money
No reviews yet
10.0/10
2 votes
Gaming
No reviews yet
8.5/10
2 votes
Performance
No reviews yet
7.5/10
2 votes
Fan noise
No reviews yet
5.5/10
2 votes
Reliability
No reviews yet
10.0/10
2 votes
Performance
1.GPU clock speed
1122MHz
1020MHz
The graphics processing unit (GPU) has a higher clock speed.
2.GPU turbo
1242MHz
1085MHz
When the GPU is running below its limitations, it can boost to a higher clock speed in order to give increased performance.
3.pixel rate
9. 94 GPixel/s
16.3 GPixel/s
The number of pixels that can be rendered to the screen every second.
4.floating-point performance
0.95 TFLOPS
1.31 TFLOPS
Floating-point performance is a measurement of the raw processing power of the GPU.
5.texture rate
29.81 GTexels/s
40.8 GTexels/s
The number of textured pixels that can be rendered to the screen every second.
6.GPU memory speed
1001MHz
1350MHz
The memory clock speed is one aspect that determines the memory bandwidth.
7.shading units
Shading units (or stream processors) are small processors within the graphics card that are responsible for processing different aspects of the image.
8.texture mapping units (TMUs)
TMUs take textures and map them to the geometry of a 3D scene. More TMUs will typically mean that texture information is processed faster.
9.render output units (ROPs)
The ROPs are responsible for some of the final steps of the rendering process, writing the final pixel data to memory and carrying out other tasks such as anti-aliasing to improve the look of graphics.
Memory
1.effective memory speed
2002MHz
5400MHz
The effective memory clock speed is calculated from the size and data rate of the memory. Higher clock speeds can give increased performance in games and other apps.
2.maximum memory bandwidth
16.02GB/s
86.4GB/s
This is the maximum rate that data can be read from or stored into memory.
3.VRAM
VRAM (video RAM) is the dedicated memory of a graphics card. More VRAM generally allows you to run games at higher settings, especially for things like texture resolution.
4.memory bus width
128bit
A wider bus width means that it can carry more data per cycle. It is an important factor of memory performance, and therefore the general performance of the graphics card.
5.version of GDDR memory
Newer versions of GDDR memory offer improvements such as higher transfer rates that give increased performance.
6.Supports ECC memory
✖Nvidia GeForce 940MX
✖Nvidia GeForce GTX 750 Ti
Error-correcting code memory can detect and correct data corruption. It is used when is it essential to avoid corruption, such as scientific computing or when running a server.
Features
1.DirectX version
DirectX is used in games, with newer versions supporting better graphics.
2.OpenGL version
OpenGL is used in games, with newer versions supporting better graphics.
3.OpenCL version
Some apps use OpenCL to apply the power of the graphics processing unit (GPU) for non-graphical computing. Newer versions introduce more functionality and better performance.
4.Supports multi-display technology
✖Nvidia GeForce 940MX
✔Nvidia GeForce GTX 750 Ti
The graphics card supports multi-display technology. This allows you to configure multiple monitors in order to create a more immersive gaming experience, such as having a wider field of view.
5.load GPU temperature
Unknown. Help us by suggesting a value. (Nvidia GeForce 940MX)
A lower load temperature means that the card produces less heat and its cooling system performs better.
6.supports ray tracing
✖Nvidia GeForce 940MX
✖Nvidia GeForce GTX 750 Ti
Ray tracing is an advanced light rendering technique that provides more realistic lighting, shadows, and reflections in games.
7.Supports 3D
✖Nvidia GeForce 940MX
✔Nvidia GeForce GTX 750 Ti
Allows you to view in 3D (if you have a 3D display and glasses).
8.supports DLSS
✖Nvidia GeForce 940MX
✖Nvidia GeForce GTX 750 Ti
DLSS (Deep Learning Super Sampling) is an upscaling technology powered by AI. It allows the graphics card to render games at a lower resolution and upscale them to a higher resolution with near-native visual quality and increased performance. DLSS is only available on select games.
9.PassMark (G3D) result
This benchmark measures the graphics performance of a video card. Source: PassMark.
Ports
1.has an HDMI output
✖Nvidia GeForce 940MX
✔Nvidia GeForce GTX 750 Ti
Devices with a HDMI or mini HDMI port can transfer high definition video and audio to a display.
2.HDMI ports
Unknown. Help us by suggesting a value. (Nvidia GeForce 940MX)
More HDMI ports mean that you can simultaneously connect numerous devices, such as video game consoles and set-top boxes.
3.HDMI version
Unknown. Help us by suggesting a value. (Nvidia GeForce 940MX)
Unknown. Help us by suggesting a value. (Nvidia GeForce GTX 750 Ti)
Newer versions of HDMI support higher bandwidth, which allows for higher resolutions and frame rates.
4.DisplayPort outputs
Unknown. Help us by suggesting a value. (Nvidia GeForce 940MX)
Allows you to connect to a display using DisplayPort.
5.DVI outputs
Allows you to connect to a display using DVI.
6.mini DisplayPort outputs
Unknown. Help us by suggesting a value. (Nvidia GeForce 940MX)
Allows you to connect to a display using mini-DisplayPort.
Price comparison
Cancel
Which are the best graphics cards?
NVIDIA GeForce GTX 960M, GTX 950M and GT 940M Spotted
NVIDIA is likely to switch to their highly efficient Maxwell architecture over the next few weeks with the upcoming GeForce GTX 960M, GeForce GTX 950M and GeForce GT 940M graphics chips. NVIDIA currently launched three high-performance Maxwell chips utilizing their high-performance GM204 architecture which currently rests in the heart of their flagship GeForce 900 series offering, the GeForce GTX 980.
Over the upcoming months, there will be some announcements on the mobility and desktop side of things by NVIDIA. NVIDIA does have a event planned for 3rd March which will is related to «Redefining Future of Gaming» and is rumored to be related to the Tegra X1 powered products such as the Shield Tablet. There are also twice the possibilities of NVIDIA announcing a new graphics card next month since they have the March 3rd event and also the GTC 2015 (Graphics Technology Conference) which commences on March 17th. So there are many possibilities but we can’t exactly point out what cards will be launched or what announcements will be made during the event.
NVIDIA does have three mobility 900 series chips planned for launch in a few weeks which include the GTX 960M, GTX 950M and GT 940M. Surprisingly, none of the chips feature the GM206 architecture even though the 965M which was launched recently is very similar in specifications to the GeForce GTX 960 that is the only card to feature the core currently however there are rumors that a GeForce GTX 950 graphics card featuring a cut down variant of the GM206 core could be on its way soon. Moving onward, the specifications are reported however their validity cannot be confirmed. Based on what we know so far, the GeForce GTX 960M and GTX 950M will be based on the GM107 architecture while the GeForce GT 940M and GT 930M will be based on the GM108 core architecture.
The specifications for the GM107 based chips would be 640 CUDA Cores each and a 2 GB VRAM operating along a 128-bit memory interface. There’s no word on the clock speeds or TDPs but they will be around 50-65W. As for the GM108 chips, the GT 940M is reported to feature 384 CUDA Cores and 4 GB VRAM along a limited 64-bit memory interface while the GeForce GT 930M will feature 256 CUDA Cores and a 2 GB VRAM operating along a 64-bit interface. These chips will ship with TDPs under the 40W barrier. The GM107 chips defined as the mainstream chips will go in several slim notebook designs while GM108 will be adopted by the more budget friendly and entry tier notebooks. A few models which already list the upcoming mobility chips have also been spotted by Videocardz that include ASUS’s ROG G551JW, ROG G501, ACER Aspore V Nitro VN7-571G and Lenovo Thinkpad T550.
While NVIDIA makes a complete transition to Maxwell on their mobility lineup, AMD is yet to offer a complete refresh on their mobility lineup which has been reusing older GCN chips since several years now. The only new chip from AMD came as the Radeon R9 M295X which makes use of the full Tonga XT configuration however the memory seems to be cut down from its 384-bit bus to 256-bit bus. The chip is only available on the Apple iMac and is yet to make an appearance on consumer level notebooks. AMD seems to be pushing for their desktop line in the next few months but their mobility line has so far been missing from action and the rumored Crystal series line seems to have disappeared from the rumor mill all of a sudden. As far as performance is concerned, NVIDIA holds a strong advantage with Maxwell GM204 in the mobility field giving notebooks a greater leverage in performance compared to Kepler generation. The new chips will further boost NVIDIA’s strategic deployment on the notebook front.
2 of 9
NVIDIA GeForce 900M — GTX 960M, GTX 950M, GT 940M Preliminary Specifications:
NVIDIA GeForce GT 930M | NVIDIA GeForce GT 940M | NVIDIA GeForce GTX 950M | NVIDIA GeForce GTX 960M | NVIDIA GeForce GTX 965M | NVIDIA GeForce GTX 970M | NVIDIA GeForce GTX 980M | |
Core Architecture | Maxwell | Maxwell | Maxwell | Maxwell | Maxwell | Maxwell | Maxwell |
Core SKU | GM108 | GM108 | GM107 | GM107 | GM204 | GM204 | GM204 |
CUDA Cores | 256 | 384 | 640 | 640 | 1024 | 1280 | 1536 |
ROPs/TMUs | TBD | TBD | TBD | TBD | 64/32 | 48/80 | 64/96 |
Clock Speed | TBD | TBD | TBD | TBD | 950 MHz+ | 1038 MHz+ | 1127 MHz+ |
VRAM | 2 GB DDR3 | 4 GB DDR3 | 2 GB GDDR5 | 2 GB GDDR5 | 4 GB GDDR5 | 6 GB GDDR5 | 8 GB GDDR5 |
Memory Bus | 64-bit | 64-bit | 128-bit | 128-bit | 128-bit | 192-bit | 256-bit |
Memory Bandwidth | TBD | TBD | TBD | TBD | 80. 2 GB/s | 160.4 GB/s | 160.4 GB/s |
TDP | TBD | TBD | TBD | TBD | 65W | 81W | 100W |
▷ Intel Core i5-6200U Prozessor: Vergleiche 14 Notebooks
14 Notebooks mit Intel Core i5-6200U im Vergleich
Beschreibung
Der Intel Core i5-6200U ist ein mobiler Dual-Core-Prozessor der Skylake-Generation, der am 1. September 2015 vorgestellt wurde. Es handelt sich um ein ULV-Modell, das vor allem für kompakte und flache Notebooks und Ultrabooks konzipiert ist. Das SoC verfügt über Multithreading und kann daher bis zu 4 simultane Threads bearbeiten. Die Basistaktfrequenz von 2,3 GHz kann auf bis zu 2,8 GHz bei einem aktiven Kern und auf 2,7 GHz bei zwei aktiven Kernen erhöht werden. An Bord ist eine Intel HD Graphics 520 GPU, die eine Turbotaktfrequenz von maximal 1000 MHz hat. Der Intel Core i5-6200U unterstützt sowohl DDR3L-1660, LPDDR3-1866 als auch den neuen DDR4-2133 Speicher bis zu einer Größe von 32 GB. Es werden zwei Speicherkanäle unterstützt, die maximale Speicherbandbreite liegt bei 34,1 GB/s.
Architektur
Skylake ist die 6. Generation der Intel-Core-Prozessoren. Die neue Mikroarchitektur löst die Haswell-Mikroarchitektur (4. Gen) und die darauf basierende verkleinerte Broadwell-Architektur (5. Gen) ab. Als von Grund auf neu designte Mikroarchitektur sind bei Skylake einige strukturelle Veränderungen und Optimierungen zu finden. Der Leistungszuwachs ist mit 5% gegenüber dem direkten Vorgänger Broadwell zwar gering, jedoch wurde bei Skylake der Fokus vor allem auf Energieeffizienz, Skalierbarkeit und Konnektivität sowie Anwenderschutz gelegt. Unter der Haube wurde vor allem das Fenster für Out-of-Order-Instruktionen vergrößert, wodurch mehr Daten gleichzeitig bearbeitet werden können. Außerdem wurde das Front-End mit verbesserter Sprungvorhersage, tieferen Buffern und schnellerem Prefetch optimiert. Dadurch sind in Intels Testszenarien, im Vergleich mit Haswell, Leistungssteigerungen von 60% bzw. eine Reduzierung des Stromverbrauchs um 60% möglich. Neben den neuen Sicherheitserweiterungen Intel Software Guard Extensions (SGX) und Intel Memory Protection Extenstions (MPX), wurden auch die Befehlssätze Intel Multi-Precision Add-Carry Instruction Extensions (ADX) und Transactional Synchronization Extensions (TSX) hinzugefügt. Intel hat den Skylake-Core vereinheitlicht, sodass in allen mobilen CPUs von 4,5 Watt bis 45 Watt derselbe Chip zum Einsatz kommt. Der Intel Core i5-6200U gehört mit seinen zwei Kernen und der GPU ohne eDRAM zur zweiten Ausbaustufe. Er wird im 14 nm Verfahren gefertigt und enthält einen 1 MB großen L2 Cache und einen 3 MB großen L3 Cache. Das SoC hat einen integrierten ISP (Image Signal Processor) und eine integrierte Sensor-Hub. Intels überarbeitete Speed Shift Technology ist auch an Bord.
Die integrierte Intel HD Graphics 520 stellt mit 24 Execution Units und ohne eDRAM die zweite Ausbaustufe der neuen Intel Gen9 GPU dar. Sie hat eine Basistaktfrequenz von 300 MHz und einen Turbomodus mit bis zu 1000 MHz. Bilder werden in 4K-Auflösung über HDMI 1.4, DisplayPort und eDisplayPort sowie in 1080p-Auflösung kabellos über Intel WiDi auf bis zu 3 Bildschirme ausgegeben. Die APIs DirectX 12, OpenGL 4.4 und OpenCL 2.0 sowie die Features Quick Sync Video, InTru 3D, Insider und Clear Video (HD) werden unterstützt.
Leistung
Der Intel Core i5-6200U stellt das Einstiegsmodell der Core i5 ULV-Modelle dar. Im Gegensatz zum direkten Vorgänger i5-5200U verfügt er über etwas höhere Taktraten und ist, aufgrund der Optimierungen in der neuen Mikroarchitektur, sogar etwas schneller als der i5-5300U. Anspruchsvolle Aufgaben und Multitasking stellen daher kein Problem dar. Die Leistungsaufnahme beträgt 15 Watt, allerdings kann diese auf 7,5 Watt cTDP down reduziert werden. Das SoC ist für kompakte und sehr flache Notebooks und Ultrabooks geeignet.
Technische Daten
Erscheinungsdatum | 3. Quartal 2015 |
Generation | 6. Generation |
Taktfrequenz | 2.3 GHz |
Boost-Taktfrequenz | 2.8 GHz |
Anzahl der Kerne | 2 |
Threads | 4 |
L2-Cache | 1 MB |
L3-Cache / SmartCache | 3 MB |
Fertigungstechnologie | 14 nm |
Interne Grafik | Intel HD Graphics 520 |
GPU Frequenz | 1000 MHz |
TDP | 15 Watt |
Speicherunterstützung | (LP)DDR3/DDR4 |
Vergleiche Notebooks mit Intel Core i5-6200U
Hersteller
Displaygröße
- bis 12″
- 13″ (beliebt)
- 14″
- 15″ (beliebt)
- 16″
- ab 17″
Akkulaufzeit
- mind. 4 Stunden
- mind. 6 Stunden
- mind. 8 Stunden
- mind. 12 Stunden
- mind. 16 Stunden
- mind. 20 Stunden
Gewicht
- bis 1,0 kg
- bis 1,5 kg
- bis 2,0 kg
- bis 2,5 kg (beliebt)
- bis 3,0 kg
- bis 3,5 kg
- bis 4,0 kg
1. Festplatte
- mind. 128 GB
- mind. 256 GB
- mind. 500 GB
- mind. 750 GB
- mind. 1 TB
1. Festplatte (Typ)
- HDD
- SSD
- Hybrid
2. Festplatte
- mind. 128 GB
- mind. 256 GB
- mind. 500 GB
- mind. 750 GB
- mind. 1 TB
2. Festplatte (Typ)
- HDD
- SSD
- Hybrid
2-in-1 Convertible
- 360 Grad Scharnier
- Detachable
Display-Typ
- Matt
- Glänzend
- Touch
- 3D
Display-Auflösung
- mind. HD
- mind. Full HD
- mind. Full HD (WQHD)
- mind. 4K
Bildwiederholrate
- mind. 120 Hz
- mind. 144 Hz
- mind. 240 Hz
- mind. 300 Hz
Arbeitsspeicher (RAM)
- mind. 4 GB
- mind. 8 GB
- mind. 16 GB
- mind. 32 GB
Betriebssystem
- Microsoft Windows 11
- Microsoft Windows 11 Pro
- Microsoft Windows 10
- Microsoft Windows 10 Pro
- Apple macOS
- ohne Betriebssystem
- Google Chrome OS
- DOS
- Linux
Extras
- USB-C
- USB 3. 1
- USB 3.0
- Fingerabdruckleser
- Beleuchtete Tastatur
- umschaltbare Grafikkarte
- 4G LTE / 3G UMTS
- Thunderbolt
- DisplayPort
- HDMI
- Speicherkartenleser
- Dock im Lieferumfang
Grafikkarten-Kategorie
- Gaming- und Highend-Grafikkarten
- Mittelklasse-Grafikkarten
- Einsteiger-Grafikkarten
Grafikkarte
Laufwerk
- ohne Laufwerk
- mit Laufwerk
Hilfe bei der Auswahl?
Interaktive Kaufberatung jetzt starten14
BeliebtheitPreis aufsteigendPreis absteigendDeal-ErsparnisAktualitätHersteller A-ZGewicht aufsteigendAkkulaufzeit absteigendFestplatte absteigendDisplaygröße aufsteigend
-
Deal: 200€ Rabatt im HP Store — nur bis 30.09.2022 — Sonderaktion bei HP
- 17,3″ IPS, entspiegelt (1920 x 1080, 165 Hz)
- 1 TB SSD
- 16 GB
- 6,75 Std.
- 2,78 kg
- CPU Intel Core i7-12700H / 3,5 GHz / Tetradeca-Core
- Grafik NVIDIA GeForce RTX 3070 Ti 8 GB
- System Microsoft Windows 11 Home (64 Bit)
1. 299,00 €1.099,00 €200 € (15 %) günstigerHP Store, inkl. Versand,
Händlerangabe: Zuletzt niedrigster Preis in 30 Tagen in unserem Preisvergleich: 929,00 € -
- 15,6″ matt (1920 x 1080)
- 256 GB SSD
- 8 GB
- 8 Std.
- 2,23 kg
- CPU Intel Core i5-6200U / 2,3 GHz / Dual-Core
- Grafik Intel HD Graphics 520
- System Microsoft Windows 10 Professional (64 Bit)
- Extra DVD±RW (±R DL) (DVD-Brenner)
-
- 15,6″ matt (1920 x 1080)
- 256 GB SSD
- 8 GB
- 1,88 kg
- CPU Intel Core i5-6200U / 2,3 GHz / Dual-Core
- Grafik Intel HD Graphics 520
- System Microsoft Windows 7 Professional SP1 64-Bit, Microsoft Windows 10 Professional (64 Bit)
-
-
SUPER DEAL: BIS -300€ BEI HP
JETZT BEI HP: NUR MIT DIESEN CODES BIS 30.09.22 SPAREN
HP ANGEBOTE ZEIGEN
-
DEALS EXKLUSIV & MEGA ANGEBOTE
BIS ZU 500 EURO RABATT IM ACER STORE — NUR BIS 29. 09.22
ZU DEN ACER DEALS
-
NOTEBOOK SALE BEI LENOVO
NOTEBOOKS REDUZIERT — NUR SOLANGE VORRAT REICHT
ZUR LENOVO AKTION
-
-
- 15,6″ IPS, matt (1920 x 1080)
- 1 TB
- 16 GB
- 2,27 kg
- CPU Intel Core i5-6200U / 2,3 GHz / Dual-Core
- Grafik NVIDIA GeForce GTX 950M 4 GB
- System Microsoft Windows 10 Home (64 Bit)
- Extra DVD±RW (±R DL) (DVD-Brenner), DVD-RAM (DVD-Laufwerk)
-
Deal: 100€ Rabatt im Acer Store — nur bis 29.09.2022 — MEGA ANGEBOTE BEI ACER
- 16,1″ IPS, matt (1920 x 1080)
- 1 TB SSD
- 16 GB
- 11,5 Std.
- 1,8 kg
- CPU Intel Core i7-11370H / 3 GHz / Quad-Core
- Grafik Intel Iris Xe Graphics G7 96 EUs
- System Microsoft Windows 11 Home (64 Bit)
999,00 €899,00 €100 € (10 %) günstigerAcer Store, inkl. Versand,
Händlerangabe: Zuletzt niedrigster Preis in 30 Tagen in unserem Preisvergleich: 924,00 € -
- 15,6″ entspiegelt (1920 x 1080)
- 500 GB
- 8 GB
- 6 Std.
- 1,96 kg
- CPU Intel Core i5-6200U / 2,3 GHz / Dual-Core
- Grafik Intel HD Graphics 520
- System Microsoft Windows 10 Professional (64 Bit)
- Extra DVD±RW (±R DL) (DVD-Brenner)
1 — 10 von 14
In diesen Kategorien ist der Intel Core i5-6200U verbaut
-
Notebooks mit Windows 10
-
Notebooks mit SSD
-
Notebooks mit 15 Zoll Display
-
Business Notebooks
-
Chromebooks
-
Notebooks mit 13 Zoll Display
-
Netbooks
-
Notebooks mit 17 Zoll Display
Die beliebtesten Prozessoren bei Notebookinfo.de
Du möchtest Hilfe bei der Auswahl?
- Notebook Konfigurator starten
- Interaktive Kaufberatung starten
0026 vs 1020MHz
23W vs 60W
12 vs 11.2
1242MHz vs 1085MHz
1.2 vs 1.1
Why is Nvidia GeForce GTX 750 Ti better than Nvidia GeForce 940MX?
- 0.35 TFLOPS above FLOPS?
1.31 TFLOPS vs 0.95 TFLOPS - 6.36 GPixel/s higher pixel rate?
16.3 GPixel/s vs 9.94 GPixel/s - 349MHz faster memory speed?
1350MHz vs 1001MHz - 3398MHz higher effective clock speed?
5400MHz vs 2002MHz - 10.99 GTexels/s higher number of textured pixels?
40.8 GTexels/s vs 29.81 GTexels/s - 70.38GB/s more memory bandwidth?
86.4GB/s vs 16.02GB/s - 64bit wider memory bus?
128bit vs 64bit - 256 more stream processors?
640 vs 384
Which comparisons are the most popular? AMD Radeon RX 550
Nvidia GeForce 940MX
vs
Nvidia GeForce MX150
Nvidia GeForce GTX 750 Ti
vs
Nvidia GeForce GTX 1050
Nvidia GeForce 940MX
vs
Nvidia GeForce MX350
Nvidia GeForce GTX 750 Ti
vs
MSI Radeon RX 580
Nvidia GeForce 940MX
vs
Nvidia GeForce MX130
Nvidia GeForce GTX 750 Ti
GeForce0003
Nvidia GeForce 940MX
vs
Nvidia GeForce MX330
Nvidia GeForce GTX 750 Ti
vs
AMD Radeon Vega 8
Nvidia GeForce 940MX
vs
AMD Radeon RX Vega 8
Nvidia GeForce GTX 750 Ti
VS
NVIDIA GeForce GTX 1650
NVIDIA GeForce 940MX
VS
NVIDIA GeForce MX250
NVIDIA GTX 750 TI
VS
003
Nvidia GeForce 940MX
vs
Nvidia GeForce GTX 670
Nvidia GeForce GTX 750 Ti
vs
Nvidia GeForce GTX 960
Nvidia GeForce 940MX
vs
Nvidia GeForce GTX 960
Nvidia GeForce GTX 750 Ti
vs
Nvidia GeForce GTX 750
Nvidia GeForce GTX 750 Ti
vs
0248 10. 0 /10
2 Votes
Games
Reviews not yet
8.5 /10
2 VOTES
performance
Reviews yet not
9000 9000 9000 9000 9000 /10 9000 9000 /10 90 9000 /10 VOTES
Fan noise
reviews not yet
5.5 /10
2 VOTES
Reliability
reviews yet not
248 10.0
/10
2 votes
Performance
1.GPU Clock Speed
1122MHz
1020MHz
The graphics processing unit (GPU) has a higher clock speed.
2.turbo GPU
1242MHz
1085MHz
When the GPU is running below its limits, it can jump to a higher clock speed to increase performance.
3.pixel speed
9.94 GPixel/s
16.3 GPixel/s
The number of pixels that can be displayed on the screen every second.
4.flops
0.95 TFLOPS
1.31 TFLOPS
FLOPS is a measure of GPU processing power.
5.texture size
29.81 GTexels/s
40.8 GTexels/s
Number of textured pixels that can be displayed on the screen every second.
6.GPU memory speed
1001MHz
1350MHz
Memory speed is one aspect that determines memory bandwidth.
7.shading patterns
Shading units (or stream processors) are small processors in a video card that are responsible for processing various aspects of an image.
8.textured units (TMUs)
TMUs accept textured units and bind them to the geometric layout of the 3D scene. More TMUs generally means texture information is processed faster.
9 ROPs
ROPs are responsible for some of the final steps of the rendering process, such as writing the final pixel data to memory and for performing other tasks such as anti-aliasing to improve the appearance of graphics.
Memory
1.memory effective speed
2002MHz
5400MHz
The effective memory clock frequency is calculated from the memory size and data transfer rate. A higher clock speed can give better performance in games and other applications.
2.max memory bandwidth
16.02GB/s
86.4GB/s
This is the maximum rate at which data can be read from or stored in memory.
3.VRAM
VRAM (video RAM) is the dedicated memory of the graphics card. More VRAM usually allows you to run games at higher settings, especially for things like texture resolution.
4. memory bus width
128bit
Wider memory bus means it can carry more data per cycle. This is an important factor in memory performance, and therefore the overall performance of the graphics card.
5. GDDR memory versions
Later versions of GDDR memory offer improvements such as higher data transfer rates, which improve performance.
6. Supports memory troubleshooting code
✖Nvidia GeForce 940MX
✖Nvidia GeForce GTX 750 Ti
Memory troubleshooting code can detect and fix data corruption. It is used when necessary to avoid distortion, such as in scientific computing or when starting a server.
Functions
1.DirectX version
DirectX is used in games with a new version that supports better graphics.
2nd version of OpenGL
The newer version of OpenGL, the better graphics quality in games.
OpenCL version 3.
Some applications use OpenCL to use the power of the graphics processing unit (GPU) for non-graphical computing. Newer versions are more functional and better quality.
4. Supports multi-monitor technology
✖Nvidia GeForce 940MX
✔Nvidia GeForce GTX 750 Ti
The video card has the ability to connect multiple screens. This allows you to set up multiple monitors at the same time to create a more immersive gaming experience, such as a wider field of view.
5. GPU temperature at boot
Unknown. Help us offer a price. (Nvidia GeForce 940MX)
Lower boot temperature means the card generates less heat and the cooling system works better.
6.supports ray tracing
✖Nvidia GeForce 940MX
✖Nvidia GeForce GTX 750 Ti
Ray tracing is an advanced light rendering technique that provides more realistic lighting, shadows and reflections in games.
7. Supports 3D
✖Nvidia GeForce 940MX
✔Nvidia GeForce GTX 750 Ti
Allows you to view in 3D (if you have a 3D screen and glasses).
8.supports DLSS
✖Nvidia GeForce 940MX
✖Nvidia GeForce GTX 750 Ti
DLSS (Deep Learning Super Sampling) is an AI based scaling technology. This allows the graphics card to render games at lower resolutions and upscale them to higher resolutions with near-native visual quality and improved performance. DLSS is only available in some games.
9. PassMark result (G3D)
This test measures the graphics performance of a graphics card. Source: Pass Mark.
Ports
1.has HDMI output
✖Nvidia GeForce 940MX
✔Nvidia GeForce GTX 750 Ti
Devices with HDMI or mini HDMI ports can stream HD video and audio to the connected display.
2.HDMI connectors
Unknown. Help us offer a price. (Nvidia GeForce 940MX)
More HDMI connectors allow you to connect multiple devices at the same time, such as game consoles and TVs.
HDMI version 3
Unknown. Help us offer a price. (Nvidia GeForce 940MX)
Unknown. Help us offer a price. (Nvidia GeForce GTX 750 Ti)
Newer versions of HDMI support higher bandwidth for higher resolutions and frame rates.
4. DisplayPort outputs
Unknown. Help us offer a price. (Nvidia GeForce 940MX)
Allows you to connect to a display using DisplayPort.
5.DVI outputs
Allows connection to a display using DVI.
6.mini DisplayPort outputs
Unknown. Help us offer a price. (Nvidia GeForce 940MX)
Allows you to connect to a display using Mini DisplayPort.
Price Match
Cancel
Which graphics cards are better?
Nvidia 900MX video cards — how to add one letter to the name and not update the whole line
Nvidia
video card
Maxwell
Video cards Nvidia 900MX — how to add one letter to the name and not update the whole line
Egor Morozov
—
In mid-March 2016, Nvidia released a minor update for the 900M line of graphics cards, the 900MX line. A couple of months later, in May of the same year, Nvidia released a new line of Pascal video cards — 1060, 1070 and 1080. Given the difference of only a few months, it becomes obvious that Nvidia ranks these lines as one generation — ultrabooks and simple laptops put 900MX, and in gaming laptops and PCs — the GTX 1000 line, and if everything is clear with Pascal, then Nvidia introduced the MX line for the first time in the last 6 years — let’s see what it is and what is the difference with the M-line.
On the official Nvidia website, the information is rather scarce:
Neither the amount of memory, nor the number of CUDA, nor the frequency is indicated — just a performance comparison with the integrated Intel HD Graphics 4400 4 years ago, which gives a little — a comparison would be much better for evaluation with some Nvidia desktop graphics card. Why Nvidia did it this way is quite clear — even a simple and cheap GTX 750 Ti is more powerful than 940MX is almost doubled — somehow not good for the new line, so the comparison was made with an Intel video card from the category of «do not hit the recumbent», and here the new video cards showed as much as a 4x performance increase.
Let’s see how much has changed compared to the 900M line:
It’s still funnier — the weakest card, Nvidia 910M, is compared with integrated graphics in the Pentium N3700 processor — this is a 6 watt processor designed for tablets and netbooks, and its graphics aren’t designed for more than playing FHD YouTube videos and rendering the Windows GUI. So the 4x superiority of the video card from Nvidia here again gives very little information. What other video cards are compared to is not indicated, but most likely the same HD 4400 is meant.40M and 940MX and completely zero.
Since the Nvidia site disappointed us in this case and didn’t give us any important information, let’s turn to the time-tested GPU-Z program, which shows all the characteristics of the video card. To simplify, we will consider only the older versions (940M, 940MX and 840M for comparison) — the 920MX and 930MX video cards are not widely used and are found only in a couple of models. So, the pivot table:
video card | Nvidia GT 840M | Nvidia GT 940M | Nvidia GT 940MX |
Architecture | Maxwell | Maxwell | Maxwell |
CUDA | 384 | 384 | 384 |
GPU frequency, MHz | 1029 | 1072-1176 | 1122-1242 |
Video memory size, GB | up to 4 GB | up to 4 GB | up to 4 GB |
Bus width, bit | 64 | 64 | 64 |
Video memory type | DDR3 | DDR3 | DDR3/GDDR5 |
Video memory frequency, MHz | 2000 | 2000 | 2000/5000 |
Process technology, nm | 28 | 28 | 28 |
Announcement date | 03/12/2014 | 03/12/2015 | 03/10/2016 |
A wonderful picture opens up — in fact, the 840M from three years ago and the new 940MX are the same video card, just the latter is somewhat overclocked and can be equipped with GDDR5 memory. Moreover, many laptop manufacturers cheat and replace GDDR5 with regular DDR3 memory — out of 21 laptops tested on the Notebookcheck website, there are 14 such laptops, that is, 2/3! At the same time, in the specifications for such laptops it is proudly written that the video card is 940MX, when with DDR3 memory it differs from 940M only by a few tens of MHz frequencies, which is simply impossible to notice in practice.
Let’s look at the results in 3Dmark 11 for all three video cards:
Nvidia 840M:
Nvidia 940M:
Nvidia 940MX:
And this is an increase over 2 years, somehow very modestly. Moreover, GDDR5 memory did not really help — the best result with it is about 2800 points, while the best result with DDR3 2600 is 8% difference due to memory acceleration by more than twice, which is extremely small, but quite understandable — Nvidia did not increase the bus width, and in both cases it is only 64 bits. Taking into account the fact that even integrated graphics from Intel have been using 128 bits for at least 4 years, and top-end video cards with GDDR5 memory have buses up to 384 bits, it becomes clear that a narrow bus does not allow the potential of faster memory to be fully revealed and the increase turns out to be near zero.
But this is not the worst — integrated graphics from Intel, which Nvidia «degraded», has grown quite well over the years: for example, the Intel Iris 550, which is in the new 13″ MacBook 2016, turns out to be at the same level as the 940MX:
So now it is more profitable for laptop manufacturers to buy processors with Iris 540 and 550 graphics from Intel — they are cheaper than buying a tandem of processors with HD Graphics and a separate discrete 900MX, and provide the same performance on average.0003
Well, the last question — why doesn’t Nvidia release video cards 1020/1030/1040 — take the core of the mobile 1050 as a basis, disable half of CUDA, leaving 320 pieces, and 2 GB of memory — heat dissipation will remain at the level of 20-25 W, as well as in the 940M, but the performance will have to rise at least one and a half times, to the level of the GTX 950M? The answer is simple — cost. If the 900M and desktop 900 lines differed very much (the number of CUDA in the mobile and desktop video cards of the same name did not match, as well as the memory sizes, bus width, etc. ), and the mobile versions were cut down quite a lot to reduce the cost, then in the new Pascal line mobile and desktop video cards of the same name are almost identical, except for the GPU frequencies reduced by 100-150 MHz in the mobile line. Moreover — mobile 1070 has 2048 CUDA vs 1920 for the desktop version — that is, it is more powerful! So Nvidia could take a chip from 1050 and cut it in half, but the price would be slightly lower than that of 1050 — about 80-90 dollars (I remind you that 1050 costs about 120-130). At the same time, the retail GPU 840M costs only 30-35 dollars:
Nvidia was well aware that it makes no sense to sell a chip that is one and a half times more powerful than the 840M, three times more expensive, and therefore limited itself to the formal introduction of a new line — 900MX. So laptop users with Nvidia 840M can exhale — their three-year-old old man is still afloat, but for those who are looking for a new laptop and are looking at models with 9The 40M/940MX is worth considering — laptops with the 840M are still on sale, and often cost less for the same level of performance. And for those who can wait, I advise you to do this — sooner or later Nvidia will still have to update video cards for ultrabooks and simple laptops, and they will not rename the 840M for the third time, which means they will either make a separate cheap chip based on Pascal, or through a year they will release a new generation of desktop video cards, and Pascal, which has fallen in price by that time, will be allowed into ultrabooks.
See also
Garmin
Older iPad models now have Stage Manager
iPad
Samsung Galaxy S23+ Design Declassified
Samsung
Galaxy S23
Comparison of GeForce MX150 and GeForce 920MX. Which is better?
The appearance of the NVidia GeForce MX150 video card passed somehow quietly, without loud statements and presentations. This is understandable, because we are not talking about a game model designed to impress with the number of FPS in games, but about a “workhorse” that replaced the well-deserved 940M(X). As it turned out, a modification of this chip with significantly lower characteristics and, accordingly, with a different performance, was also released without any special announcements. However, there are no changes to the label. Let’s look at the NVidia GeForce MX150 video card — what it is, the differences and possibilities, how to purchase a full-fledged version, and not a stripped-down one.
What is the MX150
We must remember what the GeForce MX150 is. This is a video card belonging to the latest, at the moment, generation of Pascal. It is based on the GP108 chip. This graphics card (MX150) was a real lifesaver for Intel, whose 8th generation U-processor graphics was uncompetitive compared to AMD counterparts. Let me remind you that these are Vega 8 and Vega 10, installed, for example, in Ryzen 5 2500U and Ryzen 2700U.
The performance of the MX150 is clearly higher than that of the 940M(X), and is at the level of the GTX 1030, and can even compete with the GTX 950M despite the fact that the latter has a 128-bit memory bus, while the MX150 has only 64 bits.
And everything would be fine if not for the decision to release another chip under this name — lightweight, with reduced energy consumption, but this is not reflected in the marking.
Benefits
Why is the GeForce MX150 better? 9
9059
3.
Why is the GeForce 920MX better?
16W | VS | 30W | more than 45% lower energy consumption |
NVIDIA MX150 — only in two persons
04 would be more faithful in two chip — in two chipp.
The standard version, in addition to the official marking of the MX150, also has the «service» name N17S-G1-A1 (otherwise — 1D10). The second option, which differs significantly from the first, is called N17S-LG-A1 (aka 1D12). If a longer marking is of little use, then the shortened version is worth remembering. More on this below.
What is the difference between these two chips? Here are the main characteristics of these video cards, and at the same time the closest competitors, which are no longer actually competitors:
Architecture | Pascal | Pascal | Maxwell | Maxwell | ||||||||||||||||||||||||||||||||||||||||||||||||||||
Process |
Parameter | GeForce MX150 | GeForce GTX 950MX. However, the increased frequencies of the graphics core still slightly increase the overall performance of the video card:
The MX150 is marketed as a replacement for the outdated 950MX. In official tests Nv >Geforce MX150 9 review0003 The price of the Nvidia Geforce MX150 often does not exceed $150, which is a fairly good price/quality ratio. The 14nm technology provides the video chip with low power consumption (average 30W), while the GDDR5 memory bandwidth of 48.06Gb/s ensures consistently high performance under any load in Boost mode. This GPU is suitable for users who focus on office tasks and video editing. For those who find low settings in modern games unacceptable, the power will not be enough.
User reviews of the Geforce MX150 indicate that its performance is quite enough for most popular online projects and games until 2015 release. Specification comparison
|