Home / Graphics Card / NVIDIA GeForce 6200 LE vs NVIDIA GeForce GTX 650

NVIDIA GeForce 6200 LE vs NVIDIA GeForce GTX 650

NVIDIA GeForce 6200 LE
22%
DeviceList score
vs
NVIDIA GeForce GTX 650
78%
DeviceList score
We compared the characteristics of NVIDIA GeForce 6200 LE and NVIDIA GeForce GTX 650 and compiled a list of advantages and a comparison table for you. Find out which one to choose in 2024 year.
NVIDIA GeForce 6200 LE benefits
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
NVIDIA GeForce GTX 650 benefits
Winner in comparison
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

Comparison of all specifications

NVIDIA GeForce 6200 LE NVIDIA GeForce GTX 650
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
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
Popular comparisons