750 ti vs 940m: GeForce GTX 750 Ti vs 940M [in 10 benchmarks]

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

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vs

NVIDIA GeForce GTX 750 Ti

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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	GPU 1 GPU 2
PassMark — G2D Mark	GPU 1 GPU 2
Geekbench — OpenCL	GPU 1 GPU 2
CompuBench 1. 5 Desktop — Face Detection (mPixels/s)	GPU 1 GPU 2	25.695 42.463
CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s)	GPU 1 GPU 2	168.449 642.715
CompuBench 1.5 Desktop — T-Rex (Frames/s)	GPU 1 GPU 2
CompuBench 1. 5 Desktop — Video Composition (Frames/s)	GPU 1 GPU 2	21.837 26.532
CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s)	GPU 1 GPU 2	101.399 133.458
GFXBench 4.0 — Car Chase Offscreen (Frames)	GPU 1 GPU 2
GFXBench 4. 0 — Manhattan (Frames)	GPU 1 GPU 2
GFXBench 4.0 — T-Rex (Frames)	GPU 1 GPU 2
GFXBench 4.0 — Car Chase Offscreen (Fps)	GPU 1 GPU 2
GFXBench 4. 0 — Manhattan (Fps)	GPU 1 GPU 2
GFXBench 4.0 — T-Rex (Fps)	GPU 1 GPU 2
3DMark Fire Strike — Graphics Score	GPU 1 GPU 2

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.

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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
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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

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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.

OpenCL Benchmarks — Geekbench Browser

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

1. bis 12″
2. 13″ (beliebt)
3. 14″
4. 15″ (beliebt)
5. 16″
6. ab 17″

Akkulaufzeit

1. mind. 4 Stunden
2. mind. 6 Stunden
3. mind. 8 Stunden
4. mind. 12 Stunden
5. mind. 16 Stunden
6. mind. 20 Stunden

Gewicht

1. bis 1,0 kg
2. bis 1,5 kg
3. bis 2,0 kg
4. bis 2,5 kg (beliebt)
5. bis 3,0 kg
6. bis 3,5 kg
7. bis 4,0 kg

1. Festplatte

1. mind. 128 GB
2. mind. 256 GB
3. mind. 500 GB
4. mind. 750 GB
5. mind. 1 TB

1. Festplatte (Typ)

1. HDD
2. SSD
3. Hybrid

2. Festplatte

1. mind. 128 GB
2. mind. 256 GB
3. mind. 500 GB
4. mind. 750 GB
5. mind. 1 TB

2. Festplatte (Typ)

1. HDD
2. SSD
3. Hybrid

2-in-1 Convertible

1. 360 Grad Scharnier
2. Detachable

Display-Typ

1. Matt
2. Glänzend
3. Touch
4. 3D

Display-Auflösung

1. mind. HD
2. mind. Full HD
3. mind. Full HD (WQHD)
4. mind. 4K

Bildwiederholrate

1. mind. 120 Hz
2. mind. 144 Hz
3. mind. 240 Hz
4. mind. 300 Hz

Arbeitsspeicher (RAM)

1. mind. 4 GB
2. mind. 8 GB
3. mind. 16 GB
4. mind. 32 GB

Betriebssystem

1. Microsoft Windows 11
2. Microsoft Windows 11 Pro
3. Microsoft Windows 10
4. Microsoft Windows 10 Pro
5. Apple macOS
6. ohne Betriebssystem
7. Google Chrome OS
8. DOS
9. Linux

Extras

1. USB-C
2. USB 3. 1
3. USB 3.0
4. Fingerabdruckleser
5. Beleuchtete Tastatur
6. umschaltbare Grafikkarte
7. 4G LTE / 3G UMTS
8. Thunderbolt
9. DisplayPort
10. HDMI
11. Speicherkartenleser
12. Dock im Lieferumfang

Grafikkarten-Kategorie

1. Gaming- und Highend-Grafikkarten
2. Mittelklasse-Grafikkarten
3. Einsteiger-Grafikkarten

Grafikkarte
Laufwerk

1. ohne Laufwerk
2. mit Laufwerk

Hilfe bei der Auswahl?
Interaktive Kaufberatung jetzt starten14

BeliebtheitPreis aufsteigendPreis absteigendDeal-ErsparnisAktualitätHersteller A-ZGewicht aufsteigendAkkulaufzeit absteigendFestplatte absteigendDisplaygröße aufsteigend

2. Deal: 200€ Rabatt im HP Store — nur bis 30.09.2022 — Sonderaktion bei HP

   1. 17,3″ IPS, entspiegelt (1920 x 1080, 165 Hz)
   2. 1 TB SSD
   3. 16 GB
   4. 6,75 Std.
   5. 2,78 kg
   1. CPU Intel Core i7-12700H / 3,5 GHz / Tetradeca-Core
   2. Grafik NVIDIA GeForce RTX 3070 Ti 8 GB
   3. System Microsoft Windows 11 Home (64 Bit)

   1. 299,00 €1.099,00 €200 € (15 %) günstigerHP Store, inkl. Versand,
   Händlerangabe: 29.09.22 21:44Zuletzt niedrigster Preis in 30 Tagen in unserem Preisvergleich: 929,00 €

5. 1. 15,6″ matt (1920 x 1080)
   2. 256 GB SSD
   3. 8 GB
   4. 8 Std.
   5. 2,23 kg
   1. CPU Intel Core i5-6200U / 2,3 GHz / Dual-Core
   2. Grafik Intel HD Graphics 520
   3. System Microsoft Windows 10 Professional (64 Bit)
   4. Extra DVD±RW (±R DL) (DVD-Brenner)
6. 1. 15,6″ matt (1920 x 1080)
   2. 256 GB SSD
   3. 8 GB
   4. 1,88 kg
   1. CPU Intel Core i5-6200U / 2,3 GHz / Dual-Core
   2. Grafik Intel HD Graphics 520
   3. System Microsoft Windows 7 Professional SP1 64-Bit, Microsoft Windows 10 Professional (64 Bit)

7. 1. SUPER DEAL: BIS -300€ BEI HP

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      HP ANGEBOTE ZEIGEN

   2. DEALS EXKLUSIV & MEGA ANGEBOTE

      BIS ZU 500 EURO RABATT IM ACER STORE — NUR BIS 29. 09.22

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      ZUR LENOVO AKTION
10. 1. 15,6″ IPS, matt (1920 x 1080)
    2. 1 TB
    3. 16 GB
    4. 2,27 kg
    1. CPU Intel Core i5-6200U / 2,3 GHz / Dual-Core
    2. Grafik NVIDIA GeForce GTX 950M 4 GB
    3. System Microsoft Windows 10 Home (64 Bit)
    4. Extra DVD±RW (±R DL) (DVD-Brenner), DVD-RAM (DVD-Laufwerk)

11. Deal: 100€ Rabatt im Acer Store — nur bis 29.09.2022 — MEGA ANGEBOTE BEI ACER

    1. 16,1″ IPS, matt (1920 x 1080)
    2. 1 TB SSD
    3. 16 GB
    4. 11,5 Std.
    5. 1,8 kg
    1. CPU Intel Core i7-11370H / 3 GHz / Quad-Core
    2. Grafik Intel Iris Xe Graphics G7 96 EUs
    3. System Microsoft Windows 11 Home (64 Bit)

    999,00 €899,00 €100 € (10 %) günstigerAcer Store, inkl. Versand,
    Händlerangabe: 29.09.22 21:41Zuletzt niedrigster Preis in 30 Tagen in unserem Preisvergleich: 924,00 €

13. 1. 15,6″ entspiegelt (1920 x 1080)
    2. 500 GB
    3. 8 GB
    4. 6 Std.
    5. 1,96 kg
    1. CPU Intel Core i5-6200U / 2,3 GHz / Dual-Core
    2. Grafik Intel HD Graphics 520
    3. System Microsoft Windows 10 Professional (64 Bit)
    4. Extra DVD±RW (±R DL) (DVD-Brenner)

1 — 10 von 14

In diesen Kategorien ist der Intel Core i5-6200U verbaut

1. Notebooks mit Windows 10

2. Notebooks mit SSD

3. Notebooks mit 15 Zoll Display

4. Business Notebooks

5. Chromebooks

6. Notebooks mit 13 Zoll Display

7. Netbooks

8. Notebooks mit 17 Zoll Display

Die beliebtesten Prozessoren bei Notebookinfo.de

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1. Notebook Konfigurator starten
2. Interaktive Kaufberatung starten

0026 vs 1020MHz

37W below TDP? Is
23W vs 60W

0. 8 a newer version of DirectX?
12 vs 11.2

157MHz faster GPU turbo speed?
1242MHz vs 1085MHz

0.1 newer version of OpenCL?
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

—
January 19, 2017, 05:25 PM

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

approximately 25% higher TURBO , the memory capacity is 48.06 GB/S VS 14.4 GB/S

9059

9057 9 memory clock speed 1.502 MHz vs 900 MHz More than 65% higher memory clock speed Better manhattan benchmark

3. vs 3,246.38 Approximately 15% better manhattan test

Why is the GeForce 920MX better?

Small energy consumption

9

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:

905n 14h5n 14m0003

This allowed for a 60% reduction in power consumption, which should have a beneficial effect on heating and increase the battery life of compact ultrabooks, which is important, given the lack of space to install a capacious battery.

Only one fact overshadows the picture — a decrease in the performance of the video card, and a decent one — by about 25-30%, which is a lot. In fact, although it is not officially mentioned, we are dealing with the spread of MAX-Q technology to the segment of budget video cards.

This could be understood if the information was reflected in the characteristics of laptops. Unfortunately, the specs list the presence of the MX150, and that’s about it. Which option is installed in a particular model — according to manufacturers, it does not matter. Surely, the cost of a stripped-down 1D12 for the end user is the same as that of a full-fledged 1D10.

Specifications (specification)

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: Core clock speed — 1468 GHz; Number of CUDA cores — 384; Boost frequency — 1532 GHz; Video memory frequency — 1502 MHz; Video memory capacity — 2048 MB GDDR5 standard; Interface — 64bit; DirectX 12 library support. 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. The video card is capable of delivering a stable 40-50 frames per second in not the most demanding games, but this chip cannot handle the novelties of the gaming industry. 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 Tested on: Battlefield 3, Battlefield 4, Bioshock Infinite, Crysis 2, Crysis 3, Dirt3, FarCry 3, Hitman: Absolution, Metro: Last Light, Thief, Alien: Isolation, Anno 2070, Counter-Strike: Global Offensive, Diablo III, Dirt Rally, Dragon Age: Inquisition, The Elder Scrolls V: Skyrim, FIFA 15, FIFA 16, GRID Autosport, Grand Theft Auto V, Sleeping Dogs, Tomb Raider, The Witcher 3: Wild Hunt, T-Rex, Manhattan, Cloud Gate Factor, Sky Diver Factor, Fire Strike Factor, Face Detection, Ocean Surface Simulation, Particle Simulation, Video Composition, Bitcoin Mining, TDP. NVIDIA GeForce MX150 NVIDIA GeForce GTX 460 GPU 1 10133 CompuBench 1.5 Desktop — Face Detection (mPixels/s) GPU 1 45.905 21.445 CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/ s) GPU 1 495.238 617.847 CompuBench 1.5 Desktop — T-Rex (Frames/s) GPU 1 2.365 CompuBench 1.5 Desktop — Video Composition (Frames/s) GPU 1 38.965 27.222 CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s) GPU 1 145.794 GFXBench 4.0 — Car Chase Offscreen (Frames) GPU 1 4317 GFXBench 4.0 — Manhattan (Frames) GPU 1 3710 GFXBench 4.0 — T-Rex (Frames) PassMark — G2D Mark 221 392 Geekbench — OpenCL 10133 6561 CompuBench 1. 5 Desktop — Face Detection (mPixels/s) 45.905 21.445 CompuBench 1.5 Desktop — Ocean Surface Simulation (frames/s)0559 1.823 CompuBench 1.5 Desktop — Video Composition (Frames/s) 38.965 27.222 CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s) 145.794 40.61 GFXBench 4.0 — Car Chase Offscreen (Frames) 4317 3351 GFXBench 4.0 — Manhattan (Frames) 3710 3716 GFXBench 4.0 — T-Rex (Frames) Ubisoft continues to give away games as part of its 30th anniversary promotion. Until October 14, you can get The Crew, a racing MMO with a large open world, for free. The game started in 2014, but still pleases with a nice picture and pretty landscapes. What video cards will allow you to comfortably play at Ultra-quality? We will answer this in this article. The Crew is a massive arcade racing game where you roam the United States and participate in underground racing competitions, play cat and mouse with the police and perform various stunts. All this is complemented by a pumping system, a diverse fleet of vehicles and extensive tuning options. You can cooperate with other players for team competitions. The game world offers a wide variety of locations — industrial areas, megacities with heavy traffic, forest areas and intricate tracks in the mountains. Various post-effects are actively used — changing the depth of field, motion blur. Implemented a dynamic weather system. Wet surfaces, drops on the body of the car and puddles with reflections look very nice. The picture is quite good, although the game was released two years ago. Supports DirectX 11 and NVIDIA’s HBAO+ advanced background shading technology. It is also worth noting that the graphics in The Crew have been slightly improved since the release of the Wild Run add-on. Several anti-aliasing options are supported — FXAA, MSAA, TAA, and for GeForce, you can use the exclusive TXAA algorithm. Among the features of the game, it is worth noting the limitation of 60 fps. We will compare different graphics cards at Ultra quality with all visual effects. The main tests were carried out at a resolution of 1920×1080. Due to fps limitations, video cards are divided into several groups and tested with different anti-aliasing options. For more powerful models, heavier anti-aliasing is also selected. Also, older video cards were additionally tested at a resolution of 2560×1440. Characteristics of all test participants are shown in two tables. All video cards were tested at nominal frequencies. GeForce GTX 9 card only60 additionally tested at higher frequencies during overclocking. Test bench Processor: Intel Core i7-3930K @4.4 GHz motherboard: ASUS Rampage IV Formula Memory: Kingston KHX2133C11D3K4/16GX, 1866MHz, 4x4GB hard drive: Hitachi HDS721010CLA332, 1 TB power supply: Seasonic SS-750KM operating system: Windows 7 Ultimate SP1 x64 and Windows 10 x64 GeForce driver: NVIDIA GeForce 372. 54 Driver Radeon: Crimson Edition 16.8.2 Since the time of day and weather are constantly changing in the free game mode, affecting the picture and performance, the introductory scene for one of the story races was chosen for testing. Perhaps this scene is not the most beautiful, but in some moments there were serious drawdowns, which, using this scene as an example, allows us to evaluate the capabilities of video cards in the most difficult graphic scenes. youtube.com/watch?v=RjSd7MdtlVM Six repetitions were performed for more accurate totals. The graphics quality preset is set to Ultra. But to compare low-end video cards, the sparing FXAA anti-aliasing mode was chosen. This configuration of settings is shown below. Test results below. In this comparison, we limited ourselves to the GeForce GTX 780 and Radeon R9 290 in the upper segment, because even with them the performance was limited to 60 fps. At the same time, the difference between these video cards turned out to be very small, which is very positive for the old GeForce GTX 780 model. GeForce GTX 9 has excellent performance60, and in overclocking this video card approaches the GeForce GTX 780. The GeForce GTX 760 has a slight advantage over the GeForce GTX 950 and Radeon R9 270X — they all provide high frame rates. And even the younger participants give out more than 30 fps, albeit with drawdowns below an acceptable level. However, such drawdowns in the game are extremely rare. Overclocking or minimal editing of graphics settings with the disabling of some effects will allow you to play with complete comfort on the GeForce GTX 750 Ti. Anti-aliasing FXAA slightly loads the GPU, but sharp jagged edges of objects are not smoothed as efficiently as MSAA does. And here comes the big problem on AMD graphics cards. When MSAA is enabled, serious graphical artifacts appear in the game. The problem was observed with different versions of the AMD video driver. It can be solved only by disabling MSAA (as in the first test mode) or by completely disabling SSAO and HBAO+. The second operation greatly affects the attractiveness of the picture. So we would advise sacrificing the quality of anti-aliasing. Nevertheless, let’s make a comparison in this mode in order to directly compare the performance itself. Let’s test older video cards in Ultra-mode with MSAA 4x. Of the previous participants, only the GeForce GTX 9 was included in this comparison60 and Radeon R9 270X. A confident advantage is again on the side of the first opponent, but even he can hardly cope with such a regime. The GeForce GTX 780 shows a more comfortable fps level, slightly inferior to the Radeon R9 290. Among the newcomers, the GeForce GTX 1060 has the best results, especially an impressive gap from its rivals in the minimum fps. The direct competitor of the Radeon RX 480 is more than 30% inferior in this parameter. Interestingly, in this game, the new Radeon also loses to the Radeon R9 290X, although the latter also cannot compete with the GeForce GTX 1060. Against the background of such results, it is clear that any NVIDIA graphics accelerator older than the GeForce GTX 1060 will provide absolutely stable 60 fps even in the most difficult gaming moments. And how can such graphics accelerators cope with a resolution of 2560×1440? Answer below. The GeForce GTX 1060 delivers good fps at this resolution with MSAA 4x. But if you want to feel more confident in dynamic races, then the GeForce GTX 980 Ti can handle it. The old flagship will suit any most demanding player. Radeon RX 480 and Radeon R9290X again hopelessly lose to the GeForce GTX 1060. With the potential of the GeForce GTX 980 Ti, you can count on 4K. Appropriate testing was carried out for verification at Ultra-quality with FXAA anti-aliasing. GeForce GTX 980 Ti this mode is quite capable, although the results in 3840×2160 are not very high. If you aim at 4K with MSAA, then this combination of settings will be mastered only by the GeForce GTX 1080. Let’s supplement the given data with the results of monitoring the video memory load. In Full HD with FXAA games, 2 GB of memory is enough. If you expect to play on older graphics cards at 2560×1440 with MSAA, then the memory load will be closer to 3 GB, but for modern graphics cards this is not a problem. It also means that older models such as the GeForce GTX 780 and GeForce GTX 780 Ti will not have any weaknesses, allowing you to play at such a high resolution with heavy anti-aliasing in absolute comfort without friezes and lags. Conclusions The Crew’s system requirements are quite modest, if you do not use high-quality MSAA anti-aliasing. With Full HD at Ultra-quality and FXAA, video cards of the GeForce GTX 760 and GeForce GTX 950 level do an excellent job. A not very demanding player will be able to play normally even on the GeForce GTX 750 Ti. NVIDIA graphics cards generally perform better than the competition. In heavy modes with MSAA or at 2560×1440 resolution, the GeForce GTX 1060 is the best choice. AMD’s rival in the face of the Radeon RX 480 is much weaker. There is one more thing that makes AMD solutions unsuitable for the game. On Radeon, you will receive artifacts if you activate any of the AO and MSAA options at the same time. In fact, this means that only NVIDIA GeForce GTX will provide the highest quality picture with multisampling. Fortnite fps boost | Festima.Ru Electronics Table List Tape Have Discord, I’ll throw this pack into Google drive We found this listing a year ago Click Follow and the system will automatically notify you of new offers from all bulletin boards Go to announcement Complaint type OtherCopyright infringementProhibited informationAd out of datePornographySpam Comment Show original Attention! Festima.Ru is a search engine for ads from popular sites. We do not sell goods, do not store images and personal data. All images belong to their respective authors Denial of responsibility Have Discord, I’ll send this pack to Google Drive Game consoles, games, programs a year ago Source I throw a folder with fixed files, allow everything, Yandex / Qiwi payment method, there are reviews, throw money half to half after, you scam, I throw a report, I scam (this will not happen if it doesn’t work, I’ll return the money) — you throw a report Game consoles, games, software 11 months ago Source The fastest non-latency RAM on the market, surpassing DDR5 in FPS and input lag. After g skill 3200 cl 16 fps boost on average and minimum +120 fps in warface, +20-25 fps in warzone. Memory is currently mega scarce Computer accessories and components a month ago Source Bought in DNS for 2500 Played, FPS boosts well The video card is small, compact and most importantly does not need additional. wires Selling due to the fact that there was a new video Computer accessories and components 2 years ago Source I sell a good cs go video card at medium 60 fps without any boosts Computer accessories and components 2 years ago Source Top card for cooling, ultra cold due to which it boosts more in frequency, respectively, higher FPS in games. Computer accessories and components 23 days ago Source Installed pixel experience firmware and root rights (the module costs 90 fps in Pubg Mobile and turbo boost, so 60 fps is stable) and tvrp, axyetb flies at all, I didn’t expect it, the screen is a little broken, but everything works fine, and so everything clearly mobile phones a month ago Source Selling this powerful baby in connection with the upgrade to Series X. Forza 5, Giri, fps boost — half of your favorite games at 60-120fps. Any checks on the spot, one gamepad is included, there is a box, an electronic check. If I don’t answer here for more than an hour, then write to the number Small bargaining is possible Desktop computers 2 years ago Source ?e5 2650 6 Yadoder/12 Partoks 2.1Hz turbo boost 2.4HC ?msi 1060 6GB ?16GB DDR3 ?BP 450W ?SSD 128GB ?HDD 1TB ?KIRIBERPAK on high 60 FPS, CSGO FullHD Ultra 140+FPS, Metro Exodus FullHd high 80+ fps, wot hd client fullhd ultra 80+fps A small bargain. Desktop computers 6 months ago Source Gaming computer 4 core i5-4570, 3.2 GHz, 3.6 in boost, 8gb ddr3 RAM, gtx 1050 2gb video card, 120 gb ssd + 640 gb hdd drives. Tanks at high 110+ fps, Cs go — up to 160 fps. No haggling. Desktop computers 2 years ago Source For sale a daring 3080 Founders Edition, boosted, slightly heated, very compact and visually pleasing to the eye. I’m generally silent about FPS in games. According to the documents a complete set. Computer accessories and components a year ago Source sell gtx 750ti 2gb, has 1425 MHz core boost, 6600 MHz memory can run games on photo in low settings hd/fullhd resolution at 30-60 fps Computer accessories and components Volgograd region, Volgograd, Krepilnaya st. 2 years ago Source Sell laptop ASUS 12k Processor in boost up to 3.1Ghz All office programs run without problems, there are also no problems with heavy programs like Matlab MathCad, etc. Contra 90-110 fps DOTA 100+ fps 16gb plus Charger included in excellent condition Notebooks a year ago Source Powerful 6-core processor from intel with a clock frequency of 4100 in turbo-boost (2900 without) Able to pull any new product in a comfortable FPS. Was purchased half a year ago. Cooler included. Computer accessories and components 2 years ago Source ?e5 2650V2 6 Yadoder/12 Partoks 2.1 HC turbo BUST 2.4HC ?msi 1060 6GB with two coolers ?16GB DDR3 ?SSD 128GB ?HDD 1TB ?CSGO FullHD ULTRA 140+ FPS, Metro EXODUS FULLHD 80+ fp. hd client fullhd ultra 80+fps, The Witcher 3 fullhd ultra 120+fps I will consider an exchange for a laptop Any checks on the spot I will deliver to Mikhailovsk and Stavropol on an advance payment Desktop computers 4 months ago Source An excellent gaming pc takes out absolutely all cs:go and dota 2 games in general, I’m silent, no friezes or anything go to 260+fps on ultras 1920:1080 FULL HD) intel core i7 4790k processor with a turbo boost frequency of 4.8 video card 1070 8gb (Cyberphunk -30-40 fps on ultra) monitor +10k Desktop computers 2 months ago Source POWERFUL GAMING LAPTOP WITH AMD A8 4-core processor with 3. 2 Hz boost, 8 RAM and 1000 GB hard drive 2 GB GAMING VIDEO HARDWARE from RADEONA COMPARABLE TO 940m FROM NVIDIA IN TESTS 100 fps in tanks and 120 fps in DotA 2 years ago Source Xeon 6 cores 12 threads in turbo boost 2.20 Video card HD 7950 3gb gddr5 RAM 8gb ddr3 1600-1866 Ssd m2 256gb Ssd sata3 240 bp 550 4 coolers for cooling Monitor 1680×1050 very comfortable Keyboard, mouse, microphone, wai mat. According to games, tanks are high for 100+ fps, ultra 30-60 fps; Dota2 maximum 100+ fps Kuzin royale, medium settings, 50-100 fps. EVERYTHING was used without overclocking, and good temperatures Bargaining minimum Desktop computers 9 months ago Source Login All services become available without restrictions You will be able to use the Festima.Ru service on different devices. It’s convenient and free Helping a newfag thread #58F — Computer hardware This thread is no longer there. This is a copy saved on December 6, 2016. Download thread: with preview only, with preview and attachments. The second option can take a long time to download. Files will only be in live or recently drowned threads. Read more If the M.Dvacha archive is useful to you, donate to pay for the server. #58F /help/ Web Another newfag sink starts in this ITT thread. For half a thousand threads we have been assembling PCs, sharing upgrade tips, discussing platinum builds, losing from waiting games, being surprised by prices, measuring benchmarks, solving other people’s problems and educating ourselves. In connection with the expansion of the audience and a threefold increase in the speed of posting compared to 2015, a Telegram conference was created. You can join at link . A good set of stickers and a bot with news are already waiting for you in the conference. Be with us in Telegram! In the case of an assembly upgrade, it makes sense to immediately indicate: city, preferred store, budget, goals. For the new assembly: the presence of a monitor, hard drive, case and other hardware; the need for a drive. For upgrade: the most accurate current configuration, including the models of the equipment used. Also, the thread is suitable for any questions unworthy of a separate thread. 9>> 1671225 >> 1672014 >> 1672275 >> 1672486 >> 1674260 >> 1674489 >> 1674652 >> 1674664 >> 1675002 >> 1675315 >> 1676542 >> 1676855 42 KB, 673×542 429 KB, 16000 KB, 16000 KB, 16000 KB, 16000 KB, 16000 KB, 16000 KB, 16000 KB, 16000 KB, 16000 KB, 16000 KB, 16000 KB, 160004 521 Kb, 1602×2160 680 Kb, 2560×1898 Nov 29, 07:43 #6 #1669506 >>1669494 on the first config According to the video card, all the refs fit in, the three-fan ones from Gigi / powercolor fit in, the distance for the video card is 297, but you can remove the front cover, then any video card will fit, but this is not an option. In general, on the second peak of the R9 280 from Gigabyte, it fit back to back in length. ASUS STRIX three-fan, they won’t fit from the latest series, they have 305 mm, sort of. In width, any video card up to 140 mm inclusive. Again, on the fourth peak of the RX 470 from MSI, it is 140 mm, the power fit right up. There is a 200mm turntable in the front, very quiet, but it’s not very good, I think, I bought a calculus for 4-pin cooling, hung 2 80mm and 1 120mm, more for the sake of lighting. Well, in this mode, you can do without a fan on the turret. The i3 has a ridiculous efficiency, the tower that I have titan ttc-nk35tz / rpw calmly pulls it out in the passive. If you have any more questions — write. Replies>>1669508>>1670871 Nov 29, 13:42 #173 #1669923 >>1669859 In default city 17300 in rygard, I think even cheaper you can find 480 8GB. And in general, piss on KU and collect yourself a normal computer for the money you want to spend if you live in Muhosransk. >>1669873 Fuck you, every thread has to write the same thing 10 times bitch. Point by point. 1) FUCK YOU Z170 mother and percent without K, bitch? If you are not a fucking handy overclocker, then you take either B150/h210 + percent without K Or Z170 + percent ONLY with K If you are fucking handy, then you have nothing to do in this thread. 2) Palit dual — SO shit. Palit drags in the 1070/1080 segment, gayrock/super jetstream. At 1060 you take MSI, maybe giga or anus, that’s it. 3) Corsair ssd shit. Let me guess, I took it because a corsair? 60 GB, are you crazy? 128 minimum or better don’t fucking take it for your pika. SSD only if there is extra money for it, it does NOT give performance. If you want normal ssd — take samsung evo, any except 840. Zayebat in gaming PCs to save on bp. PSU ONLY FSP, Seasonic, Chieftec. All. You choose the 600-700 watt power range for this pitch, the certificate is PREFERRED to be gold, but you can’t even fuck with bronze with these companies. Take whichever you like. 700 is generally not needed, but it can cost less than 600-650. Answers>>1669929>>1669930>>1669934>>1669960>>1671010 Nov 29, 6:06 pm #446 #1670664 >>1670643 What’s with the fucking chandelier? If you go to the cars, then in this situation the Zhiguli pulled himself up and pissed off a suitable model, especially against the background of the fact that the rest of the competitors have the same Zhiguli inside, but then the gas tanks explode, then some other garbage. And by the way, Palit made good cards back in 9xx dash, if you fucked up this moment, so the company can be trusted. >>1670645 So far, their real fail is the backplate, I’ve been bombarded that they stuck a solid plate, motherfuckers. I even wanted to make cuts in it myself at first. Some other anon in past threads told me that they have a circuit (all sorts of resistors and transistors) on the card that is naked, it burns, but without proofs. In short, while the card is 3 months old, fuck it all. Let’s see further. >>1670655 In general terms, yes, except for the fact that evga is on fire (there were proofs) or higher. Go choose. answers >> 1670695 39 KB, 640×447 NOST, 04:47 #787 #1671601 >> 1671573 shorter, pull out everything yes, from the body, put it on the box from the mother, you put it on the box from the mother, you put it on the box from the mother from the mother, you put it on the box from the mother from the mother, you put it on the box from the mother, you put it on the box from the mother from the mother, you put it on the box from the mother from the mother. you remove the static from yourself and the gear that catches it up, leave one bar of the RAM, carefully look at all the jumpers, is everything in place, insert the processor fan connector into the CPU_FAN, close the power contacts with a screwdriver or better with a remote button if there is one, do not forget to connect the speaker, if it doesn’t take off, you close the green with black on, so you can check if the power supply is alive, although the duty room should be visible, is there something on the board, somehow glow in idle time, before turning it on? answers >> 1671666 November 30, 15:02 #1042 #1672290 >> 1672134 >> 1672211 Throw out this horn Strick Gaming Juining and take a gamerrok/superfettrim. If you don’t believe me, look at the comparisons, now urine will pour on the fire, but learn to think for yourself. With the mother, an overpayment is possible and you can take the same thing cheaper, but here as you like. See that there are radiators on the power supply. BP choose sonic / fsp in the range of 600-700 power, gold certificate or higher, further in price. For 2k you won’t take it, but you don’t want to burn something from the components for 20-30k? 32 GB of RAM is still unnecessary, you can get by with the 16th one with a frequency of 3000-3200, then buy more if necessary. See that the mother pulls these operative frequencies by the way. Forget the fuck about cock radiators, everyone gets bombs from them here. Choose by price and not a brand name. ssd samsung 850 evo ideally, 250 GB is enough. There is no point in taking about the version, overpayment for nothing. If you have questions, ask. A, cooler — thermalright trusspirit 120 or 140, which will fit in the case, respectively, more — a little better. Taking something cheaper by K percent is better not to take risks and save. >>1672140 Don’t give a fuck what you masturbate to more then take it. Replies>>1672300>>1672313>>1672466 Nov 30, 17:14 #1125 #1672609 >>1672599 Choose your mother last. That is, you look at your case, how many fans it has, how many connectors for USB hubs are needed in the front. Then you look at the processor, for i7 you need to look at motherboards with a heatsink in the power phases, for i3-i5 you don’t need it. Then you look at the RAM, how many bars you take, how many you will deliver later. That is, if you want to take 2 x 4 GB, then there is no point in taking a board with only two slots. Then you look at the video card and the power supply. If you have some kind of RX and a good power supply, then you can even take a mother with CrossFire, and if the video card is such that even the second paired with it does not correct the situation and then someday you just cover it up, then support for two video cards will not work for you needed. Well, in the end, from what is left, you choose purely subjectively for appearance. Replies>>1672615 Nov 30, 18:40 #1201 #1672805 Here I have one gig of RAM, and Firefox, which flows like a whore at the sight of a foreign car. Naturally, it all swaps like I don’t know what. I thought, maybe I can buy a flash drive and transfer the swap to it, then it should start working a little faster (especially since the spermerka even offers to do this (I don’t have it, if that)). The only problem is that I only have USB2.0, which does not have very good throughput. Will it take off? I can’t just buy more RAM, because I have only two slots on my mother, and both are already occupied. And I don’t want to buy two-gig ddr2 dice, because my whole bakery doesn’t cost as much as they ask for one. answers >> 1672814 >> 1672821 >> 1673022 November 30, 10:13 p. m. . The budget grows as the salary is received, now it’s fifty kopecks, then it will slowly be farmed, let’s say up to a hundred (and then a quarter will bite off the monitor). On duty, I from time to time consider healthy SLAU systems (in general, they are solved on my i5-2430M in a reasonable time, but so far I haven’t taken on reverse tasks), and I read boards about how people red-eye Zions and other powerful crap for the house. The problem is that I’m not a coder, I’m a teacher, paralleling something on the map is not my skills anymore, well, fuck him. I’d rather play games on the map in parallel. The question here is more like, should I jump above the ceiling as an i7 igame bakery and look at server bakery threads? Well, as I usually teach fools, the answer is mostly contained in the question itself, if it is written in sufficient detail, yes. Replies>>1673293 21 Kb, 379×379 Dec 01, 04:38 #1562 #1673706 Guys, advise. Now I have a laptop with i3 3120 (2.5GHz, two cores, four threads) + gf 710m. I mostly play old wines from consoles via emulsion/old games on peck and sometimes yoba. This configuration was enough for me to go through GTA 5 at the minimum, but since I’m a fan of the Witcher saga, I would like to go through the games. I went through the first part 2 years ago on a weaker laptop, on this I launched the second one, at minimum 25-27 fps, playable, but I still didn’t play, because there was no time, and sometimes it sags, the third one goes at 7-10 fps. So, I want to know: is there enough mobile gt940 so that the same third witcher goes to minimum wages at 30 frames / second? I don’t need high game settings, I only want to go through 2/3 of the pidmak from the job, is it worth taking a laptop on this video card for such purposes, and in the future continue to play games from old consoles on it? answers >> 1673725 >> 1673774 >> 1673871 >> 1673878 01, 23:49 #1983 #1675026 >> 1675016 Well, in addition to the fact that they have a fucker that fucked you up, which fucks you fucked you a month to answer a prepared farce, shitty software that can cause bluescreens, fucked up sensors that not any software counts (CPU temperature on the mother’s Z87 is just a pussy), plus a bunch of garbage you need to install, just to control the fans in the case, AI Digital bin, with fucking animation, always hangs, in support they just say «put Widows 7», fucked up components (some USB ports from AssMedia do not work with some devices on Asus mothers), shitty voltage stabilization (always overestimates a couple of cores, even on the manual with it turned off overvolt). Well, yes, even the mother from Anus BURNED THE PROCESSOR, but these are trifles. MSI, AssRock, don’t give a fuck, but not Anus. Replies>>1675029 Dec 02, 03:27 I passed 480 myself and took it, I never regretted it. It was also advised to me in the winter, and the haters of the Reds did not come up with anything other than heating and consuming electricity. There were brakes and glitches in old games, some kind of flickering in motion (I went through all the settings, I didn’t find the reason), in every second game something was wrong. Only the Duma member was doing great, but he will do just as well on this one. All this at the same price. I didn’t wait for the drivers to be fixed (and I doubt that this one will be fixed at all at such a fucking scale), I tried to turn it back, we went forward. I set it to 1060, tested it, everything is as it should be. Well, fuck this api Fart and the increase in some new games, I play the old ones more, and when GTA 6 comes out, both 480 and 1060 will already be under the bunk. Replies>>1675180 Dec 02, 16:43 #2301 #1676114 >>1676084 you crap with the cooler, hdd, and ssd. Gather in regard. In short, if you want maximum performance. 1) fuck the ssd, it doesn’t give fps 2) hard on a terabyte blue vdshku 3) how the hell are you going to drive without K? You take 6600K under Z mother, or without K and the mother is simpler, B150 or h210 but you can forget about overclocking then. 4) look for the cooler in the thread, you need a type of thermalright truspirite for overclocking K proca 5) look for a PSU in the thread, chieftek, sonic, fsp, 550-650W range, with a certificate of bronze and above, take the cheapest 6) Scrap for 1070 vidyuhu. you can wait until I come home and throw off in an hour and a half answers >> 1676148 >> 1676156 >> 1676185 02 Dec 17:23 #2335 #167628 9000 collected a productive system for acceleration for overclocking on atx board, 6700k and noctua 15. And now I looked at various assembly options in compact cases for mini itx boards of cubic or flat shape, in the form of rack or console cases. In general, for most people it makes no sense to use sli modes for two or more video cards, use 4 RAM sticks, and overclocking itself, of course, for video editing, working with music, people squeeze everything out of the system, so they buy expensive cooling and take full-sized motherboards. But in the end we get an increase of about 20-30 percent. Actually, the question is this. If a person does not overclock the processor, use more than 2 video cards and buy 2 sticks of 8-16 GB of RAM. According to those tests, I looked, then benchmarks in different programs for tests, prime, links, etc. Did not show much difference. Tell me what I do not take into account, I will be grateful if you tell me in more detail about the various pitfalls. I just really liked the compact cases. There is even a desire to change the computer later to a compact case, put the same processor, cooling for such cases, Noktua has solutions and not to use overclocking, but to work at the factory frequency of 4 Hz. That is, as I understand it, the advantages of atx, in addition to a larger number of connectors for RAM, video cards, additional connectors, is it just a larger number of power phases that are important only during overclocking? 142 Kb, 740×515 Dec 02, 19:55 What are the advantages of 1) We save on the cooler, xx300 will be enough without overclocking 2) hard from HP is 2 times fatter, classic 3) 16 gigs of cheap crucial 2133, since the mother does not pull anymore 4) We save on the mother. I don’t want to get into the srach about vendors, so you take one or an analogue from asroka / msi / asus in terms of the main parameters (chipset, socket, RAM, etc.). There is no point in chasing ATX, if you are not going to insert expansion boards, ATX costs somewhere 2k more, approximately. Therefore, MATH 5) By vidyuhi, I don’t want to roll into the srach in the same way by vendor. The only thing I will say is that in the 1060 segment it is not the top that fires. At 1070-1080 they have good video cards, but at 1060 I would take another vendor, most likely MSI. 6) I already wrote with the BPs 7) I put the SSD as you wanted, it’s good, but I think it’s better to take, for example, 6600 percent for the difference and save the rest. The owner of ssd + hdd, and now I understand that if you don’t want to overpay, ssd is not needed. From a normal hard drive, everything loads quickly enough, will you have Windows not in 15 seconds but in a minute to connect, is it worth the money or not? Games for me and with HDD are loaded very fucked up, no kidding. Vdshka on 2 TB blue. Decide youself. You can change the case for a white one yourself. It seems that he said everything, he is ready for reasonable criticism and assembly questions. Cockerels have already fucked up for 2 threads and go to hell if they do not give arguments in their favor. >>1676148 Why the hell would you take an ssd in the segment up to 60k, enjoy fast downloads and FPS drops? 1070 is enough for longer than 1060, it will be possible to change the percentage later, for example, and still sit on it. But specifically here, most likely, the price will not fit, unfortunately, unless you collect components all over Moscow at the smallest price tags. >>1676308 Mother h210 / B150 does not hold RAM above 2133, it will drop frequencies. And take better 2×8. You have already been written about the rest. BP you can pull from my picture. With a xs drive, I took myself to install Windows, since from a flash drive there is periodically fucking. Decide for yourself here. An extra mower or possible fucking with the installation. 142 Kb, 740×5150024 In short, look, I would collect myself in this way. What are the advantages of 1) We save on the cooler, xx300 will be enough with a head without overclocking 2) hard from HP is 2 times fatter, classic 3) 16 gigs of cheap crucial 2133, since the mother no longer pulls 4) Save on mother. I don’t want to get into the srach about vendors, so you take one or an analogue from asroka / msi / asus in terms of the main parameters (chipset, socket, RAM, etc. ). There is no point in chasing ATX, if you are not going to insert expansion boards, ATX costs somewhere 2k more, approximately. Therefore MATH 5) By vidyuhi, I don’t want to roll into a srach by vendor. The only thing I will say is that in the 1060 segment it is not the top that fires. At 1070-1080 they have good video cards, but at 1060 I would take another vendor, most likely MSI. 6) I already wrote with the power supply manager 7) I put the SSD as you wanted, it’s good, but I think it’s better to take, for example, 6600 percent for the difference and save the rest. The owner of ssd + hdd, and now I understand that if you don’t want to overpay, ssd is not needed. From a normal hard drive, everything loads quickly enough, will you have Windows not in 15 seconds but in a minute to connect, is it worth the money or not? Games for me and with HDD are loaded very fucked up, no kidding. Vdshka on 2 TB blue. Decide youself. You can change the body there for a white one yourself. It seems that he said everything, he is ready for reasonable criticism and assembly questions. Cockerels have already fucked up for 2 threads and go to hell if they do not give arguments in their favor. >>1676148 Why the hell would you take an ssd in the segment up to 60k, enjoy fast downloads and FPS drops? 1070 is enough for longer than 1060, it will be possible to change the percentage later, for example, and still sit on it. But specifically here, most likely, the price will not fit, unfortunately, unless you collect components all over Moscow at the smallest price tags. >>1676308 Mother h210 / B150 does not hold RAM above 2133, it will drop frequencies. And take better 2×8. You have already been written about the rest. BP you can pull from my picture. With a xs drive, I took myself to install Windows, since from a flash drive there is periodically fucking. Decide for yourself here. An extra mower or possible fucking with the installation.