NVIDIA Quadro FX 3500M vs NVIDIA Quadro FX 2500M vs NVIDIA Quadro FX 3600M
NVIDIA Quadro FX 3500M► remove
The NVIDIA Quadro FX 3500M was the top professional graphic solution for the mobile use in 2007. The Quadro FX 3500M is especially suitable for CAD, digital image-, video editing and scientifical visualizations (according NVIDIA). It is based upon the NVIDIA GeForce Go 7950GTX. Therefore also a good gaming performance can be expected (for 2007 and if modded drivers are used). The card is shipped with certified drivers for professional applications, which are not optimized for games (inofficially the manual installation of Forceware drivers should be possible).
The drivers of the Quadro FX series are certified for CAD applications (e.g. AutoCad, Inventor, Solidstation, Solud Edge, ...) and DCC applictions (e.g. Maya, 3DS Max, Lightwave 3D, ...) and offers a 12-Bit precision for Subpixel, full image Antialiasing, hardware accelerated Antialiasing for dots and lines and additional optimized settings, which are optimized for CAD and DCC.
Nvidia describes the 3000 series as a power package for big laptops and data structures.
NVIDIA Quadro FX 2500M► remove
This is a professional video card for notebooks from NVidia It is based on 7900GTX.
The application performance is very good due to special professional drivers (3D rendering, CAD), but the gaming performance is weaker. With modded drivers, it should work like a 7900 GTX.
NVIDIA Quadro FX 3600M► remove
The NVIDIA Quadro FX 3600M is a professional graphics card for CAD, DCC and other modeling applications based upon the 8800M GTX consumer card (G92 architecture). It was a high-end card at the time of announcement. Certified drivers grant error-free and faster performance in professional applications. The FX 3600M was later succeeded by the more efficient 55nm FX 2800M and FX 3800M, both of which still utilize the G92 architecture.
The most important aspect of the Quadro FX 3600M is its use "Unified Shaders". There no longer exist any dedicated pixel or vertex shaders. Instead, the FX 3600M uses 64 so-called stream processors to handle most of the graphics work previously processed by pixel and vertex shaders. Furthermore, the shader units are clocked higher than the GPU core (1250 MHz).
The performance of the FX 3600M shoul be higher than the 1600M due to the 256 bit wide memory bus and the high number of Unified Shaders. According to Nvidia, the GPU is best suited for modelling large 3D scenes and complex models.
|NVIDIA Quadro FX 3500M||NVIDIA Quadro FX 2500M||NVIDIA Quadro FX 3600M|
|Quadro FX Series|
|Cores||24 / 8||24 / 8||96 - unified|
|Core||575 MHz||500 MHz||500 MHz|
|Memory||700 MHz||600 MHz||800 MHz|
|Bus||256 Bit||256 Bit||256 Bit|
|Max. Memory||512 MB||512 MB||512 MB|
|DirectX||DirectX 9c, 3.0||DirectX 9c, 3.0||DirectX 10, 4.0|
|Transistors||278 Million||278 Million||754 Million|
|Technology||90 nm||90 nm||65 nm|
|Features||12-bit-sub-pixel, 32-bit-floating-point precision, 32-bit floating point precision, 128 bit graphic pipeline, hardware 3D window clipping, high precision dynamic-range (DPDR) technology, unified memory architecture, nView multi-display (for multi-monitor support), PowerMizer options for energy saving, architecture which is optimized for workstations, rotated-grid full-scene antialiasing (RG FSAA), unified driver architecture, NVIDIA PureVideo technology||90nm||PureVideo technology (H.264, VC-1, MPEG2, WMV9 decoding acceleration), HDCP-capable, PowerMizer 7.0 energy administration (dynamic switching between performance and energy saving), HDR (High Dynamic-Range Lighting), designed for Windows Vista, supports Dual-Link DVI-D exits for TFT resolutions up to 2560x1600, LVDS, VGA, HDTV, HDCP, HDMI, PCI-E 16x, OpenGL 2.1, Gigathread technology|
|MXM Factor III|