NVIDIA GeForce GT 335M vs NVIDIA GeForce GT 330M
NVIDIA GeForce GT 335M► remove
The Nvidia GeForce GT 335M (sometimes also called GeForce G335M) is a laptop graphics card for middle class gaming notebooks. It is based on the GT215 core (as the GTS 350M for example) but features only 72 shader cores and 24 Texture Mapping Units. Therefore, the GT 335M offers significantly more shaders than the GT 330M, but due to the low clock speed, the performance is not that much better. Compared to the GTS models, the GT 335M does not support GDDR5.
The 3D performance of the GT335M is on a level with the Mobility Radeon HD 5650 in the middle class. Therefore, the GPU is fast enough for all games in 2010. Demanding games like Metro 2033, Battlefield BC2 or Crysis run only in low-medium details fluently. Less demanding games like Call of Duty MW2 or Sims 3 can be played in high detail settings (see Benchmarks below).
As the other GeForce 300M cards, the GT335M offers Purevideo HD (VP4) to accelerate the decoding of HD videos. This means that the GPU offers the complete decoding of MPEG-1, MPEG-2, MPEG-4 ASP, VC-1/WMV9 and H.264 videos.
Furthermore, CUDA, OpenCL, and DirectX Compute allow the usage of the cores for general computing (e.g., encoding of videos).
NVIDIA GeForce GT 330M► remove
The Nvidia GeForce GT 330M is the successor of the GT 230M and technically a faster clocked GT 240M (but it should still maintain the power envelope of the GT 230M as the naming suggests). Therefore, the GT330M is a mid-range laptop graphics card that offers DirectX 10.1 effects.
The performance of the GT 330M is similar to the GeForce GT 240M and therefore located in the range of the Mobility Radeon HD 4650. The card supports DirectX 10.1 and all the features of the GT 230M / 240M (as it is based on the same GT216 core). The modern ATI Radeon HD 5650 offers DirectX 11 effects and performs better.
Modern and demanding DirectX 10 and 11 games (like Crysis or Risen) can only be played fluently with medium detail settings and resolution settings. Less demanding games like Sims 3 run in high details and resolutions. See the gaming list below for detailed benchmarks.
The 48 shader cores of the GT216 are based on the desktop GTX 200 architecture and are therefore a bit improved compared to the 48 cores of the GeForce 9700M GTX. According to Nvidia, the micro architecture was improved regarding battery runtime and performance. The stream processors / shaders are 1-dimensional (1D) and can therefore not directly compared to the 5D shaders of current AMD / ATI cards like the Mobility Radeon HD 5650.
To use the calculation performance of the GeForce GT 330M for other applications, the card supports CUDA, OpenCL, and Direct Compute. For example encoding videos using the stream processors is considerably faster than using a fast CPU.
The GT330M supports the hardware decoding of HD videos using the integrated PureVideo HD engine. The integrated VP4 video processor is able to fully decode H.264, VC-1, MPEG-2, and MPEG-4 ASP (e.g., DivX, xVID). Hardware decoding of MPEG-1 encoded videos is not supported, but this can be handled by every CPU without high load. In conjunction with an Core i5-520M, the GT 330M decoded H.264 with 1-6%, VC1 in 5-10%, and WMV with 3-9% CPU load (1080p over HDMI on a Sony Vaio Z11).
As with the GT 230M, the performance depends on the used graphics memory. With slow DDR2, the card can be up to 20% slower than with faster memory. Usually the GT 330M is paired with cheap and relatively fast DDR3 memory. GDDR3 would be a bit faster. GDDR5 is not supported according to Nvidia.
A low power version of the GT 330M is also available for laptop manufacturers featuring a minimal slower clock rate and less power consumption (Codename N11P-LP).
|NVIDIA GeForce GT 335M||NVIDIA GeForce GT 330M|
|GeForce GT 300M Series|
|72 -||48 -|
|Core||450 MHz||575 MHz|
|Shader||1080 MHz||1265 MHz|
|Memory||1066 MHz||1066 MHz|
|Bus||128 Bit||128 Bit|
|Memory||DDR3, GDDR3||GDDR2, GDDR3, DDR3|
|Max. Memory||1024 MB||1024 MB|
|DirectX||DirectX 10.1, 4.1||DirectX 10.1, 4.1|
|Technology||40 nm||40 nm|
|Features||DirectX Compute Support (Windows 7), CUDA, OpenCL, HybridPower, PhysX, SLI, Powermizer 8.0, MXM 3.0 Type-B, 72 Shader, 24 Texture Mapping Units, 8 Render Output Units||DirectX Compute Support (Windows 7), CUDA, OpenCL, HybridPower, PhysX|
|223 GFlops||182 Gigaflops calculation power|