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NVIDIA GeForce GT 425M vs NVIDIA GeForce GT 435M

NVIDIA GeForce GT 425M

► remove from comparison NVIDIA GeForce GT 425M

The NVIDIA GeForce GT 425M is a fast mid-range laptop graphics card presented in 2010. It is based on the GF108 core, which is related to the Fermi architecture. Therefore, it supports DirectX 11 and OpenGL 4.0. In contrast to the GTX 415M, the card features the full 96 shader cores. The difference of the GT420M, GT425M and GT435M is only the core and memory speed.

GF108 architecture

The GF108 core of the GT 425M is related to the GF100 core of the GeFore GTX 480M and offers 96 shaders and a 128 Bit memory bus for DDR3. Except for the memory controllers the GF108 can basically be considered a halved GF106. Therefore, the architecture is not comparable to the old GT215 (e.g., GeForce GTS 350M) or GT216 (e.g., GeForce GT 330M) cores. Unlike the GF100 the smaller GF104, GF106, and GF108 core were not only shortened, but also considerably modified. In contrast to the GF100, which was designed for professional applications, these chips target the consumer market. They feature more shaders (3x16 instead of 2x16), more texture units (8 instead of 4) and SFUs per streaming multi-processor (SM). As there are still only 2 warp schedulers (versus 3 shader groups), Nvidia now uses superscalar execution to use the higher amount of shaders per SM more efficiently. In theory, the shaders can thereby be utilized more efficiently and the performance per core is improved. However, in worst case scenarios the performance can also be worse than of the GF100 (and its predecessors). The ECC memory protection, which is important for professional applications, was completely omitted and the FP64 hardware shortened (only 1/3 of the shader are FP64-capable and therewith only 1/12 of the FP32’s performance). Because of these cutbacks, the size of the SM  grew only by 25% despite the higher number of shaders and larger warp schedulers with superscalar dispatch capabilities. Due to the different shader architectures and the higher clock rate of the shader domain, the core count can not be directly compared to AMD cores of the Radeon 5000 series (e.g. HD 5650).

Detailed information on the GF104 architecture (and therewith also the GF106 and GF108) can be found in the desktop GTX 460 article by Anandtech.

Performance

Because the GeForce GT 425M features a new architecture, the performance is not comparable to older chips with a similar core count. The DDR3 graphics memory combined with the 128 Bit bus should be the bottleneck of the GT 425M. In our tests with an Acer Aspire 5745PG pre-sample, a GT 420M performed on average between a GeForce GT 330M and GT 335M. Therefore, the GT 425 should be a bit faster than the GT 335M. Nvidia positions the card against the Mobility Radeon HD 5650.

The gaming performance of the GT 425M is sufficient for medium detail settings in modern games like Battlefield Bad Company 2. Less demanding games should run in high detail settings. The best resolution to choose is about 1360x768 due to the limited performance. Benchmarks and comparison charts on the 3D performance can be found below.

Features

A novelty of the GF104/106/108 chips is the support of Bitstream HD Audio (Blu-Ray) output via HDMI. Alike the Radeon HD 5730, the GT 425M can transfer Dolby True HD and DTS-HD bitstream-wise without quality loss to a HiFi receiver.

The GT425M offers the PureVideo HD technology for video decoding. The included Video Processor 4 (VP4) supports feature set C and therefore the GPU is able to fully decode MPEG-1, MPEG-2, MPEG-4 Part 2 (MPEG-4 ASP - e.g., DivX or Xvid), VC-1/WMV9, and H.264 (VLD, IDCT, Motion Compensation, and Deblocking).

Furthermore, the GPU is able to decode two 1080p streams simultaneously (e.g. for Blu-Ray Picture-in-Picture).

Through CUDA, OpenCL, and DirectCompute 2.1 support the GeForce GT 425M can be of help in general calculations. For example, the stream processor can considerably faster encode videos than a fast CPU can. Furthermore, physics calculations can be done by the GPU using PhysX (e.g. supported by Mafia 2 or Metro 2033).

According to Nvidia, support for 3D Vision on the new graphics cards is also new. It enables the laptop to send 3D contents (3D games, 3D Web Streaming, 3D photos, 3D Blu-Rays) to a built-in 3D enabled screen or an external 3D TV (only if supported by the laptop manufacturer).

According to rumors, the power consumption of the GeForce GT 425M should be about 35 Watt (TDP including the MXM board and memory), and therefore suited for 15” laptops. Without load, the chip is clocked at 50/100/135 MHz (chip/shader/memory) in 2D respectively 200/400/325 in 3D mode to save power. Furthermore, the 400M series supports Optimus to automatically switch between the integrated graphics card from Intel and the Nvidia GPU. However, the laptop manufacturers need to implement it and it cannot be upgraded.

NVIDIA GeForce GT 435M

► remove from comparison NVIDIA GeForce GT 435M

The NVIDIA GeForce GT 435M is a fast mid-range laptop graphics card presented in 2010. It is based on the GF108 core, which is related to the Fermi  (GF100) architecture. Therefore, it supports DirectX 11 and OpenGL 4.0. In contrast to the GT 415M, the card features the full 96 shader cores. The difference to the slower GT420M and GT425M chips is the higher core and memory clock rate.

GF108 architecture

The GF108 core of the GT 435M is related to the GF100 core of the GeFore GTX 480M and offers 96 shaders and a 128 Bit memory bus for DDR3. Except for the memory controllers the GF108 can basically be considered a halved GF106. Therefore, the architecture is not comparable to the old GT215 (e.g., GeForce GTS 350M) or GT216 (e.g., GeForce GT 330M) cores. Unlike the GF100 the smaller GF104, GF106, and GF108 core were not only shortened, but also considerably modified. In contrast to the GF100, which was designed for professional applications, these chips target the consumer market. They feature more shaders (3x16 instead of 2x16), more texture units (8 instead of 4) and SFUs per streaming multi-processor (SM). As there are still only 2 warp schedulers (versus 3 shader groups), Nvidia now uses superscalar execution to use the higher amount of shaders per SM more efficiently. In theory, the shaders can thereby be utilized more efficiently and the performance per core is improved. However, in worst case scenarios the performance can also be worse than of the GF100 (and its predecessors). The ECC memory protection, which is important for professional applications, was completely omitted and the FP64 hardware shortened (only 1/3 of the shader are FP64-capable and therewith only 1/12 of the FP32’s performance). Because of these cutbacks, the size of the SM  grew only by 25% despite the higher number of shaders and larger warp schedulers with superscalar dispatch capabilities. Due to the different shader architectures and the higher clock rate of the shader domain, the core count can not be directly compared to AMD cores of the Radeon 5000 series (e.g. HD 5650).

Detailed information on the GF104 architecture (and therewith also the GF106 and GF108) can be found in the desktop GTX 460 article by Anandtech.

Performance

The performance of the GeForce GT 435M is on average as fast, as a Mobility Radeon HD 5650 and therefore in the upper middle class (in 2010). As the GeForce GT 435M features a new architecture, the performance is not comparable to older chips with a similar core count (like the GTS 250M e.g.). The DDR3 graphics memory combined with the 128 Bit bus should be the bottleneck of the GT 435M. In our tests, the GT435M handled demanding games of 2010 like Mafia 2 or Battlefield: Bad Company 2 with medium details and WXGA resolution settings. Less demanding games like Fifa 11 or StarCraft 2 (single player) can be played in high details without stuttering. More gaming benchmarks can be found below.

Features

A novelty of the GF104/106/108 chips is the support of Bitstream HD Audio (Blu-Ray) output via HDMI. Alike the Radeon HD 5730, the GT 435M can transfer Dolby True HD and DTS-HD bitstream-wise without quality loss to a HiFi receiver.

The GT435M offers the PureVideo HD technology for video decoding. The included Video Processor 4 (VP4) supports feature set C and therefore the GPU is able to fully decode MPEG-1, MPEG-2, MPEG-4 Part 2 (MPEG-4 ASP - e.g., DivX or Xvid), VC-1/WMV9, and H.264 (VLD, IDCT, Motion Compensation, and Deblocking). Furthermore, the GPU is able to decode two 1080p streams simultaneously (e.g. for Blu-Ray Picture-in-Picture).

Through CUDA, OpenCL, and DirectCompute 2.1 support the GeForce GT 435M can be of help in general calculations. For example, the stream processor can considerably faster encode videos than a fast CPU can. Furthermore, physics calculations can be done by the GPU using PhysX (e.g. supported by Mafia 2 or Metro 2033).

According to Nvidia, support for 3D Vision on the new graphics cards is also new. It enables the laptop to send 3D contents (3D games, 3D Web Streaming, 3D photos, 3D Blu-Rays) to a built-in 3D enabled screen or an external 3D TV (only if supported by the laptop manufacturer).

According to rumors, the power consumption of the GeForce GT 435M should be about 40-45 Watt (TDP including the MXM board and memory), and therefore suited for 15” laptops (comparable to the HD 5730). Without load, the chip is clocked at 50/100/135 MHz (chip/shader/memory) in 2D respectively 200/400/325 in 3D mode to save power. Furthermore, the 400M series supports Optimus to automatically switch between the integrated graphics card from Intel and the Nvidia GPU. However, the laptop manufacturers need to implement it and it cannot be upgraded.

NVIDIA GeForce GT 425MNVIDIA GeForce GT 435M
GeForce GT 400M Series
GeForce GT 445M compare 144 @ 0.59 GHz192 / 128 Bit @ 1250 MHz
GeForce GT 435M 96 @ 0.65 GHz128 Bit @ 800 MHz
GeForce GT 425M 96 @ 0.56 GHz128 Bit @ 800 MHz
GeForce GT 420M compare 96 @ 0.5 GHz128 Bit @ 800 MHz
GeForce GT 415M compare 48 @ 0.5 GHz128 Bit @ 800 MHz
GeForce GT 445M compare 144 @ 0.59 GHz192 / 128 Bit @ 1250 MHz
GeForce GT 435M 96 @ 0.65 GHz128 Bit @ 800 MHz
GeForce GT 425M 96 @ 0.56 GHz128 Bit @ 800 MHz
GeForce GT 420M compare 96 @ 0.5 GHz128 Bit @ 800 MHz
GeForce GT 415M compare 48 @ 0.5 GHz128 Bit @ 800 MHz
CodenameN11P-GSN11P-GT
ArchitectureFermiFermi
Pipelines96 - unified96 - unified
Core Speed560 MHz650 MHz
Shader Speed1120 MHz1300 MHz
Memory Speed800 MHz800 MHz
Memory Bus Width128 Bit128 Bit
Memory TypeDDR3DDR3
Max. Amount of Memory1024 MB
Shared Memorynono
APIDirectX 11, Shader 5.0DirectX 11, Shader 5.0
technology40 nm40 nm
FeaturesOptimus Support, PureVideo HD VP4, 3D Vision, Bitstream HD Audio, CUDA, DirectCompute, OpenCL, OpenGL 4.0, DirectX 11Optimus Support, PureVideo HD VP4, 3D Vision, Bitstream HD Audio, CUDA, DirectCompute, OpenCL, OpenGL 4.0, DirectX 11
Notebook Sizemedium sizedlarge
Date of Announcement15.08.2010 03.09.2010
Link to Manufacturer Pagewww.nvidia.comwww.nvidia.com

Benchmarks

3DMark 11 - 3DM11 Performance Score
min: 832     avg: 837     median: 832 (1%)     max: 846 Points
min: 820     avg: 897     median: 896.5 (1%)     max: 973 Points
3DMark 11 - 3DM11 Performance GPU
min: 747     avg: 756     median: 753 (1%)     max: 767 Points
min: 732     avg: 799     median: 799 (1%)     max: 866 Points
3DMark Vantage
3DM Vant. Perf. total + NVIDIA GeForce GT 425M
3DMark Vantage - 3DM Vant. Perf. total
min: 3256     avg: 3386     median: 3380.5 (1%)     max: 3518 Points
3DM Vant. Perf. total + NVIDIA GeForce GT 435M
min: 3825     avg: 3870     median: 3869.5 (1%)     max: 3914 Points
3DM Vant. Perf. GPU no PhysX + NVIDIA GeForce GT 425M
3DMark Vantage - 3DM Vant. Perf. GPU no PhysX
min: 2699     avg: 2803     median: 2789 (2%)     max: 2993 Points
3DM Vant. Perf. GPU no PhysX + NVIDIA GeForce GT 435M
min: 3033     avg: 3112     median: 3112 (2%)     max: 3191 Points
3DMark 2001SE - 3DMark 2001 - Standard
min: 17850     avg: 27558     median: 30484.5 (32%)     max: 31412 Points
35402 Points (37%)
3DMark 03 - 3DMark 03 - Standard
min: 15802     avg: 17132     median: 17344.5 (9%)     max: 17833 Points
min: 19261     avg: 19303     median: 19280 (10%)     max: 19368 Points
3DMark 05 - 3DMark 05 - Standard
min: 11636     avg: 12975     median: 13104.5 (14%)     max: 13374 Points
14036 Points (15%)
3DMark 06 3DMark 06 - Score Unknown Settings + NVIDIA GeForce GT 425M
3DMark 06
7605 Points (10%)
3DMark 06 - Score Unknown Settings + NVIDIA GeForce GT 435M
8535 Points (11%)
3DMark 06 - Standard 1366x768 + NVIDIA GeForce GT 425M
3DMark 06
min: 6822     avg: 6968     median: 7020 (9%)     max: 7063 Points
3DMark 06 - Standard 1280x1024 + NVIDIA GeForce GT 425M
3DMark 06
min: 6564     avg: 6693     median: 6706.5 (9%)     max: 6762 Points
3DMark 06 - Standard 1280x1024 + NVIDIA GeForce GT 435M
min: 7486     avg: 7511     median: 7510.5 (10%)     max: 7535 Points
3DMark 06 - Standard 1280x800 + NVIDIA GeForce GT 425M
3DMark 06
7126 Points (9%)
3DMark 06 - Standard 1280x768 + NVIDIA GeForce GT 425M
3DMark 06
7513 Points (10%)
Unigine Heaven 2.1 - Heaven 2.1 high
min: 10.9     avg: 11.1     median: 11.1 (2%)     max: 11.6 fps
9 fps (2%)
SPECviewperf 11
specvp11 snx-01 + NVIDIA GeForce GT 425M
SPECviewperf 11 - specvp11 snx-01
min: 0.88     avg: 1.4     median: 1.6 (1%)     max: 1.63 fps
specvp11 snx-01 + NVIDIA GeForce GT 435M
1.8 fps (1%)
specvp11 tcvis-02 + NVIDIA GeForce GT 425M
SPECviewperf 11 - specvp11 tcvis-02
min: 0.61     avg: 0.8     median: 0.6 (0%)     max: 1.23 fps
specvp11 tcvis-02 + NVIDIA GeForce GT 435M
min: 0.66     avg: 0.9     median: 0.9 (1%)     max: 1.14 fps
specvp11 sw-02 + NVIDIA GeForce GT 425M
SPECviewperf 11 - specvp11 sw-02
min: 3.74     avg: 6     median: 4.2 (3%)     max: 10.12 fps
specvp11 sw-02 + NVIDIA GeForce GT 435M
min: 4.63     avg: 6.6     median: 6.6 (5%)     max: 8.63 fps
specvp11 proe-05 + NVIDIA GeForce GT 425M
SPECviewperf 11 - specvp11 proe-05
min: 0.8     avg: 3.2     median: 1.1 (1%)     max: 7.6 fps
specvp11 proe-05 + NVIDIA GeForce GT 435M
min: 0.93     avg: 1.3     median: 1.3 (1%)     max: 1.59 fps
specvp11 maya-03 + NVIDIA GeForce GT 425M
SPECviewperf 11 - specvp11 maya-03
min: 1.89     avg: 7.5     median: 2.3 (2%)     max: 18.26 fps
specvp11 maya-03 + NVIDIA GeForce GT 435M
min: 2.41     avg: 2.4     median: 2.4 (2%)     max: 2.44 fps
specvp11 lightwave-01 + NVIDIA GeForce GT 425M
SPECviewperf 11 - specvp11 lightwave-01
min: 5.58     avg: 8.4     median: 8.2 (9%)     max: 11.47 fps
specvp11 lightwave-01 + NVIDIA GeForce GT 435M
min: 3.98     avg: 5.3     median: 5.3 (6%)     max: 6.68 fps
specvp11 ensight-04 + NVIDIA GeForce GT 425M
SPECviewperf 11 - specvp11 ensight-04
min: 7.04     avg: 7.6     median: 7.9 (4%)     max: 8.01 fps
specvp11 ensight-04 + NVIDIA GeForce GT 435M
min: 8.81     avg: 10.7     median: 10.7 (5%)     max: 12.5 fps
specvp11 catia-03 + NVIDIA GeForce GT 425M
SPECviewperf 11 - specvp11 catia-03
min: 2.52     avg: 3.8     median: 3 (2%)     max: 5.78 fps
specvp11 catia-03 + NVIDIA GeForce GT 435M
min: 1.55     avg: 2.3     median: 2.3 (1%)     max: 3.07 fps
Windows 7 Experience Index - Win7 Gaming graphics
min: 6.5     avg: 6.6     median: 6.6 (84%)     max: 6.6 Points
6.6 Points (84%)
Windows 7 Experience Index - Win7 Graphics
min: 4.6     avg: 6     median: 6.5 (82%)     max: 6.6 Points
6.6 Points (84%)
Cinebench R10 Cinebench R10 Shading (32bit) + NVIDIA GeForce GT 425M
Cinebench R10 - Cinebench R10 Shading (32bit)
min: 3442     avg: 4115     median: 4098 (3%)     max: 4696 Points
Cinebench R10 Shading (32bit) + NVIDIA GeForce GT 435M
min: 3593     avg: 4280     median: 4567 (3%)     max: 4681 Points
Cinebench R11.5 Cinebench R11.5 OpenGL 64 Bit + NVIDIA GeForce GT 425M
Cinebench R11.5 - Cinebench R11.5 OpenGL 64 Bit
min: 20.57     avg: 20.8     median: 20.7 (7%)     max: 21.18 fps
Cinebench R11.5 OpenGL 64 Bit + NVIDIA GeForce GT 435M
min: 23.18     avg: 23.4     median: 23.4 (8%)     max: 23.57 fps

Average Benchmarks NVIDIA GeForce GT 425M → 100% n=22

Average Benchmarks NVIDIA GeForce GT 435M → 110% n=22

- Range of benchmark values for this graphics card
- Average benchmark values for this graphics card
* Smaller numbers mean a higher performance
1 This benchmark is not used for the average calculation

Game Benchmarks

The following benchmarks stem from our benchmarks of review laptops. The performance depends on the used graphics memory, clock rate, processor, system settings, drivers, and operating systems. So the results don't have to be representative for all laptops with this GPU. For detailed information on the benchmark results, click on the fps number.

Fifa 11

Fifa 11

2010
low 800x600
100%
GeForce GT 425M:
214.2 319.9 334 ~ 289 fps
106%
GeForce GT 435M:
293.2 319.9 ~ 307 fps
med. 1024x768
100%
GeForce GT 425M:
114 141.8 148.3 161.8 ~ 141 fps
108%
GeForce GT 435M:
149.6 153.7 ~ 152 fps
high 1360x768
100%
GeForce GT 425M:
94.1 95.8 98 104.1 ~ 98 fps
110%
GeForce GT 435M:
106 110 ~ 108 fps
ultra 1920x1080
100%
GeForce GT 425M:
51.3 57.6 ~ 54 fps
108%
GeForce GT 435M:
58.2  fps
Mafia 2

Mafia 2

2010
low 800x600
100%
GeForce GT 425M:
50  fps
med. 1024x768
100%
GeForce GT 425M:
29.6 33.4 39.2 ~ 34 fps
119%
GeForce GT 435M:
40.4  fps
high 1360x768
100%
GeForce GT 425M:
24.4 26.5 33.3 ~ 28 fps
126%
GeForce GT 435M:
35.2  fps
ultra 1920x1080
100%
GeForce GT 425M:
15.8 15.8 ~ 16 fps
133%
GeForce GT 435M:
21.3  fps
low 1024x768
100%
GeForce GT 425M:
151 172.3 ~ 162 fps
125%
GeForce GT 435M:
202  fps
med. 1360x768
100%
GeForce GT 425M:
31.8 37.2 37.8 38.6 ~ 36 fps
128%
GeForce GT 435M:
46  fps
high 1360x768
100%
GeForce GT 425M:
25 26.3 27 28.1 ~ 27 fps
119%
GeForce GT 435M:
32  fps
ultra 1920x1080
100%
GeForce GT 425M:
13.7 15.5 ~ 15 fps
113%
GeForce GT 435M:
17  fps
low 800x600
100%
GeForce GT 425M:
40.6 40.7 59.4 ~ 47 fps
155%
GeForce GT 435M:
72.9  fps
med. 1360x768
100%
GeForce GT 425M:
22 22.7 30.2 30.3 ~ 26 fps
154%
GeForce GT 435M:
40  fps
high 1600x900
100%
GeForce GT 425M:
11.2 11.6 ~ 11 fps
169%
GeForce GT 435M:
18.6  fps
ultra 1920x1080
100%
GeForce GT 425M:
4.2 5.7 ~ 5 fps
low 1024x768
100%
GeForce GT 425M:
44.9  fps
96%
GeForce GT 435M:
43.2  fps
med. 1366x768
100%
GeForce GT 425M:
30.6 32.8 35.9 ~ 33 fps
106%
GeForce GT 435M:
29 40.3 ~ 35 fps
high 1366x768
100%
GeForce GT 425M:
23.2 24 25.8 ~ 24 fps
104%
GeForce GT 435M:
21.5 29.2 ~ 25 fps
ultra 1920x1080
100%
GeForce GT 425M:
12.2 12.9 ~ 13 fps
112%
GeForce GT 435M:
14.5  fps
low 800x600
100%
GeForce GT 425M:
106.2  fps
med. 1024x768
100%
GeForce GT 425M:
31 39.2 46.3 ~ 39 fps
118%
GeForce GT 435M:
46.2  fps
high 1366x768
100%
GeForce GT 425M:
26.3 33.6 38.4 ~ 33 fps
122%
GeForce GT 435M:
40.2  fps
ultra 1920x1080
100%
GeForce GT 425M:
17.9 22.2 ~ 20 fps
128%
GeForce GT 435M:
25.5  fps
Risen

Risen

2009
low 800x600
100%
GeForce GT 425M:
63.4 65.5 75.1 77 ~ 70 fps
96%
GeForce GT 435M:
62.6 71.9 ~ 67 fps
med. 1024x768
100%
GeForce GT 425M:
28.2 30.1 30.8 31.5 32 33.8 ~ 31 fps
113%
GeForce GT 435M:
29.2 40.2 ~ 35 fps
high 1366x768
100%
GeForce GT 425M:
17.7 21.3 21.6 22 22.2 25 ~ 22 fps
109%
GeForce GT 435M:
18.9 30 ~ 24 fps
ultra 1920x1080
100%
GeForce GT 425M:
12.6 13.4 14 14.9 ~ 14 fps
96%
GeForce GT 435M:
13.4  fps
Resident Evil 5

Resident Evil 5

2009
low 800x600
100%
GeForce GT 425M:
82.5  fps
84%
GeForce GT 435M:
69.1  fps
high 1360x768
100%
GeForce GT 425M:
38.8  fps
118%
GeForce GT 435M:
45.7  fps
ultra 1920x1080
100%
GeForce GT 425M:
21.6  fps
113%
GeForce GT 435M:
24.3  fps
Need for Speed Shift

Need for Speed Shift

2009
low 800x600
100%
GeForce GT 425M:
59.7 86.7 ~ 73 fps
63%
GeForce GT 435M:
46.1  fps
med. 1024x768
100%
GeForce GT 425M:
28.5 34.8 40.5 45.6 46 ~ 39 fps
77%
GeForce GT 435M:
30  fps
high 1366x768
100%
GeForce GT 425M:
29.1 29.9 31.2 31.6 33 ~ 31 fps
90%
GeForce GT 435M:
28  fps
ultra 1920x1080
100%
GeForce GT 425M:
18.8 19.1 19.3 ~ 19 fps
Colin McRae: DIRT 2

Colin McRae: DIRT 2

2009
low 800x600
100%
GeForce GT 425M:
49.5 51.9 86.9 103 ~ 73 fps
107%
GeForce GT 435M:
45.3 110.2 ~ 78 fps
med. 1024x768
100%
GeForce GT 425M:
41.7 45.4 55.5 57.1 58 ~ 52 fps
102%
GeForce GT 435M:
41.1 65.5 ~ 53 fps
high 1360x768
100%
GeForce GT 425M:
23.2 24.9 33.9 34.3 36.5 ~ 31 fps
97%
GeForce GT 435M:
29.4 29.7 ~ 30 fps
ultra 1920x1080
100%
GeForce GT 425M:
13 19.1 27.1 ~ 20 fps
106%
GeForce GT 435M:
21.2  fps
Anno 1404

Anno 1404

2009
low 1024x768
100%
GeForce GT 425M:
60 145.5 ~ 103 fps
78%
GeForce GT 435M:
60 99.3 ~ 80 fps
ultra 1280x1024
100%
GeForce GT 425M:
19  fps
106%
GeForce GT 435M:
20.1  fps
Sims 3

Sims 3

2009
med. 1024x768
100%
GeForce GT 425M:
88.4  fps
high 1280x1024
100%
GeForce GT 425M:
43.4  fps
Far Cry 2

Far Cry 2

2008
low 640x480
100%
GeForce GT 425M:
96.8  fps
high 1024x768
100%
GeForce GT 425M:
45.1  fps
ultra 1920x1080
100%
GeForce GT 425M:
21.5  fps
Crysis Warhead

Crysis Warhead

2008
low 800x600
100%
GeForce GT 425M:
68  fps
93%
GeForce GT 435M:
63  fps
ultra 1024x768
100%
GeForce GT 425M:
12  fps
100%
GeForce GT 435M:
12  fps
Call of Duty 4 - Modern Warfare

Call of Duty 4 - Modern Warfare

2007
low 800x600
GeForce GT 435M:
122.5  fps
med. 1024x768
GeForce GT 435M:
57.9  fps
Crysis - GPU Benchmark

Crysis - GPU Benchmark

2007
low 1024x768
100%
GeForce GT 425M:
85.5 92.6 ~ 89 fps
med. 1024x768
100%
GeForce GT 425M:
43.6 44.7 ~ 44 fps
high 1024x768
100%
GeForce GT 425M:
24.3 25 ~ 25 fps
ultra 1920x1080
100%
GeForce GT 425M:
5.6 5.8 ~ 6 fps
Crysis - CPU Benchmark

Crysis - CPU Benchmark

2007
low 1024x768
100%
GeForce GT 425M:
90.2 94.5 ~ 92 fps
med. 1024x768
100%
GeForce GT 425M:
41 42.2 ~ 42 fps
high 1024x768
100%
GeForce GT 425M:
22.3 22.8 ~ 23 fps
ultra 1920x1080
100%
GeForce GT 425M:
5.3 5.5 ~ 5 fps
World in Conflict - Benchmark

World in Conflict - Benchmark

2007
med. 1024x768
100%
GeForce GT 425M:
54  fps
high 1024x768
100%
GeForce GT 425M:
33  fps
ultra 1920x1080
100%
GeForce GT 425M:
12  fps
Call of Juarez Benchmark

Call of Juarez Benchmark

2006
high 1024x768
100%
GeForce GT 425M:
28.4  fps
168%
GeForce GT 435M:
47.8  fps

Average Gaming NVIDIA GeForce GT 425M → 100%

Average Gaming 30-70 fps → 100%

Average Gaming NVIDIA GeForce GT 435M → 112%

Average Gaming 30-70 fps → 113%

NVIDIA GeForce GT 425Mlowmed.highultraQHD4K
Fifa 112891419854
Mafia 250342816
StarCraft 2162362715
Metro 20334726115
Battlefield: Bad Company 244.9332413
CoD Modern Warfare 2106.2393320
Risen70312214
Resident Evil 582.538.821.6
Need for Speed Shift73393119
Colin McRae: DIRT 273523120
Anno 140410319
Sims 388.443.4
Far Cry 296.845.121.5
Crysis Warhead6812
Crysis - GPU Benchmark8944256
Crysis - CPU Benchmark9242235
World in Conflict - Benchmark543312
Call of Juarez Benchmark28.4
< 30 fps
< 60 fps
< 120 fps
≥ 120 fps

3
10
2
1
10
1
1
8
7
1
15
1







NVIDIA GeForce GT 435Mlowmed.highultraQHD4K
Fifa 1130715210858.2
Mafia 240.435.221.3
StarCraft 2202463217
Metro 203372.94018.6
Battlefield: Bad Company 243.2352514.5
CoD Modern Warfare 246.240.225.5
Risen67352413.4
Resident Evil 569.145.724.3
Need for Speed Shift46.13028
Colin McRae: DIRT 278533021.2
Anno 14048020.1
Crysis Warhead6312
Call of Duty 4 - Modern Warfare122.557.9
Call of Juarez Benchmark47.8
< 30 fps
< 60 fps
< 120 fps
≥ 120 fps

2
6
3

9

1
4
6
1
9
1







For more games that might be playable and a list of all games and graphics cards visit our Gaming List

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show all (including archived), 2024, 2023
v1.26
log 28. 11:05:27

#0 checking url part for id 1941 +0s ... 0s

#1 checking url part for id 1946 +0s ... 0s

#2 not redirecting to Ajax server +0s ... 0s

#3 did not recreate cache, as it is less than 5 days old! Created at Thu, 28 Mar 2024 05:37:00 +0100 +0.001s ... 0.001s

#4 composed specs +0.128s ... 0.129s

#5 did output specs +0s ... 0.129s

#6 start showIntegratedCPUs +0s ... 0.129s

#7 getting avg benchmarks for device 1941 +0.026s ... 0.155s

#8 got single benchmarks 1941 +0.048s ... 0.202s

#9 getting avg benchmarks for device 1946 +0.002s ... 0.204s

#10 got single benchmarks 1946 +0.012s ... 0.216s

#11 got avg benchmarks for devices +0s ... 0.216s

#12 min, max, avg, median took s +0.39s ... 0.606s

#13 before gaming benchmark output +0s ... 0.606s

#14 Got 202 rows for game benchmarks. +0.018s ... 0.624s

#15 composed SQL query for gamebenchmarks +0s ... 0.624s

#16 got data and put it in $dataArray +0.01s ... 0.634s

#17 benchmarks composed for output. +0.042s ... 0.677s

#18 calculated avg scores. +0s ... 0.677s

#19 return log +0.046s ... 0.722s

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> Expert Reviews and News on Laptops, Smartphones and Tech Innovations > Benchmarks / Tech > Graphics Card Comparison - Head 2 Head
Redaktion, 2017-09- 8 (Update: 2023-07- 1)