Start price |
41.24 USD
-67.76 USD (-62.2%) better
vs
109 USD
|
Memory clock speed |
532 MGz
527 MGz (10540%) better
vs
5 MGz
|
Price-quality ratio |
55.3 %
14.3 % (34.9%) better
vs
41 %
|
Core Frequency |
1058 MGz
1058 MGz (INF%) better
vs
0 MGz
|
Technological process |
28 nm
-82 nm (-74.5%) better
vs
110 nm
|
Maximum RAM amount |
2
1.936 (3025%) better
vs
0.064
|
Memory bus width |
128 bit
96 bit (300%) better
vs
32 bit
|
Memory Bandwidth |
80
77.872 (3659.4%) better
vs
2.128
|
NVIDIA GeForce 6200 LE | NVIDIA GeForce GTX 650 |
General information | |
Price-quality ratio The sum of all the advantages of the device divided by its price. The higher the%, the better the quality per unit price in comparison with all analogues. | |
41 % | 55.3 %
14.3 % (34.9%) better
|
Architecture | |
Curie | Kepler |
Code name | |
NV44 A2 | GK107 |
Type | |
Десктопная | Десктопная |
Start price | |
41.24 USD
-67.76 USD (-62.2%) better
|
109 USD |
Number of shader processors | |
no data | 384 |
Core Frequency | |
0 MGz | 1058 MGz
1058 MGz (INF%) better
|
Number of transistors | |
75 млн | 1,270 млн |
Technological process | |
110 nm | 28 nm
-82 nm (-74.5%) better
|
Power Consumption (TDP) The calculated heat output shows the average heat output in operation under load,
the larger the value - the more the requirements for cooling and energy consumption increase. | |
no data | 64 Wt |
Interface | |
PCIe 1.0 x16 | PCIe 3.0 x16 |
Length | |
no data | 14.5 см |
Additional power connectors | |
нет | 1x 6-pin |
Vulkan NVIDIA's Vulkan technology allows developers to gain low-level GPU access to optimize graphics instructions (better than OpenGL and Direct3D APIs).
It is an open, free, cross-platform standard available for all platforms. | |
N/A | no data |
3D Vision | |
no data | + |
CUDA The presence of the CUDA architecture allows you to use applications that are optimized for
parallel computing. For example, for the development and design of neural networks. | |
Multi-monitor support | |
no data | 4 |
Number of CUDA cores A large number of CUDA cores increase performance in graphics computing,
especially affecting anti-aliasing and lighting in games, and the speed of training neural networks. | |
no data | 384 |
Bus | |
no data | PCI Express 3.0 |
Height | |
no data | 11.1 см |
HDCP | |
no data | + |
Maximum resolution via VGA | |
no data | 2048x1536 |
Audio input for HDMI | |
no data | внутренний |
HDMI | |
OpenCL | |
N/A | no data |
3D Gaming | |
no data | + |
FXAA | |
TXAA | |
Adaptive VSync | |
no data | + |
3D Blu-Ray | |
no data | + |
Video connectors | |
1x DVI, 1x VGA, 1x S-Video | 1x Dual Link DVI-I, 1x Dual Link DVI-D, 1x Mini HDMI |
DirectX | |
9.0c (9_3) | 12 (11_0) |
Floating-point performance | |
no data | 812.5 gflops |
Shader model | |
3.0 | no data |
Benchmarks |
Memory | |
Memory type | |
DDR2 | GDDR5 |
Maximum RAM amount Large amount of video memory allows you to run demanding games with a lot of textures,
use high-resolution monitors, provide more opportunities for cryptocurrency mining. | |
0.064 | 2
1.936 (3025%) better
|
Memory bus width The wider the video memory bus width, the more data is transferred to the GPU per unit of time and the better the performance in demanding games. | |
32 bit | 128 bit
96 bit (300%) better
|
Memory clock speed A high memory frequency has a positive effect on the speed of a video card with a large amount of data. | |
532 MGz
527 MGz (10540%) better
|
5 MGz |
Memory Bandwidth The higher the data transfer bandwidth, the more effective RAM your PC can use. | |
2.128 | 80
77.872 (3659.4%) better
|