NVIDIA Quadro FX 3500M vs NVIDIA Quadro FX 2500M vs NVIDIA Quadro FX 380M

NVIDIA Quadro FX 3500M

► remove NVIDIA Quadro FX 3500M

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 NVIDIA Quadro FX 2500M

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 380M

► remove NVIDIA Quadro FX 380M

The Nvidia Quadro FX 380M is a professional entry-level graphics card for mobile workstations. It is based on the GeForce 310M and therefore the 3D performance is not very good. Due to special drivers and optimizations, the performance for professional applications should be much better (than the 310M would perform). Another advantage are the certified drivers than ensure a good performance of professional applications without errors.

The card supports DirectX 10.1 and all the features of the G 310M (as it is based on the same GT218 core). Therefore PureVideo HD to decode HD videos with the graphics card is supported. The used Video Processor 4 (VP4) is able to fully decode H.264, VC-1, MPEG-2, and also MPEG-4 ASP (DivX or xVID) in hardware to minimize CPU load. MPEG-1 is not supported but can be easily handled by every modern CPU.

The gaming performance of the FX380M is similar to the GeForce 310M and therefore located in the entry level class. The professional drivers are however optimized for applications and may therefore deliver a worse performance. Modern 3D games like COD Modern Warfare 2 run only in low details and resolutions fluently. Some demanding games like NFS Shift or GTA4 wont run fluently at all. Less demanding games like SIMS 3 run in medium details and resolutions fluently. Therefore, the graphics card can not be recommended for gamers.

As the FX380M supports CUDA, DirectX Compute 10.1, and OpenCL, the shaders of the graphics processor can be used for other tasks than rendering images (e.g. faster encoding of videos).

The used GT218 core is manufactured in 40nm and based on the desktop GTX 200 architecture.

NVIDIA Quadro FX 3500MNVIDIA Quadro FX 2500MNVIDIA Quadro FX 380M
ManufacturerNVIDIANVIDIANVIDIA
Quadro FX Series
Quadro FX 3800M 128 @ 675 MHz256 Bit @ 1000 MHz
Quadro FX 3700M 128 @ 550 MHz256 Bit @ 800 MHz
Quadro FX 2800M 96 @ 600 MHz256 Bit @ 1000 MHz
Quadro FX 3600M 96 @ 500 MHz256 Bit @ 800 MHz
Quadro FX 1800M 72 @ 560 MHz128 Bit @ 1100 MHz
Quadro FX 2700M 48 @ 530 MHz256 Bit @ 800 MHz
Quadro FX 880M 48 @ 550 MHz128 Bit @ 790 MHz
Quadro FX 3500M 24/8 cores @ 575 MHz256 Bit @ 700 MHz
Quadro FX 2500M 24/8 cores @ 500 MHz256 Bit @ 600 MHz
Quadro FX 1700M 32 @ 625 MHz128 Bit @ 800 MHz
Quadro FX 1600M 32 @ 625 MHz128 Bit @ 800 MHz
Quadro FX 1500M 20/7 cores @ 375 MHz256 Bit @ 500 MHz
Quadro FX 770M 32 @ 500 MHz128 Bit @ 800 MHz
Quadro FX 570M 32 @ 475 MHz128 Bit @ 700 MHz
Quadro FX 380M 16 @ 625 MHz64 Bit @ 800 MHz
Quadro FX 370M 8 @ 580 MHz64 Bit @ 700 MHz
Quadro FX 360M 16 @ 400 MHz64 Bit @ 600 MHz
Quadro FX 350M 4/3 cores @ 450 MHz64 Bit @ 350 MHz
Quadro FX 3800M 128 @ 675 MHz256 Bit @ 1000 MHz
Quadro FX 3700M 128 @ 550 MHz256 Bit @ 800 MHz
Quadro FX 2800M 96 @ 600 MHz256 Bit @ 1000 MHz
Quadro FX 3600M 96 @ 500 MHz256 Bit @ 800 MHz
Quadro FX 1800M 72 @ 560 MHz128 Bit @ 1100 MHz
Quadro FX 2700M 48 @ 530 MHz256 Bit @ 800 MHz
Quadro FX 880M 48 @ 550 MHz128 Bit @ 790 MHz
Quadro FX 3500M 24/8 cores @ 575 MHz256 Bit @ 700 MHz
Quadro FX 2500M 24/8 cores @ 500 MHz256 Bit @ 600 MHz
Quadro FX 1700M 32 @ 625 MHz128 Bit @ 800 MHz
Quadro FX 1600M 32 @ 625 MHz128 Bit @ 800 MHz
Quadro FX 1500M 20/7 cores @ 375 MHz256 Bit @ 500 MHz
Quadro FX 770M 32 @ 500 MHz128 Bit @ 800 MHz
Quadro FX 570M 32 @ 475 MHz128 Bit @ 700 MHz
Quadro FX 380M 16 @ 625 MHz64 Bit @ 800 MHz
Quadro FX 370M 8 @ 580 MHz64 Bit @ 700 MHz
Quadro FX 360M 16 @ 400 MHz64 Bit @ 600 MHz
Quadro FX 350M 4/3 cores @ 450 MHz64 Bit @ 350 MHz
Quadro FX 3800M 128 @ 675 MHz256 Bit @ 1000 MHz
Quadro FX 3700M 128 @ 550 MHz256 Bit @ 800 MHz
Quadro FX 2800M 96 @ 600 MHz256 Bit @ 1000 MHz
Quadro FX 3600M 96 @ 500 MHz256 Bit @ 800 MHz
Quadro FX 1800M 72 @ 560 MHz128 Bit @ 1100 MHz
Quadro FX 2700M 48 @ 530 MHz256 Bit @ 800 MHz
Quadro FX 880M 48 @ 550 MHz128 Bit @ 790 MHz
Quadro FX 3500M 24/8 cores @ 575 MHz256 Bit @ 700 MHz
Quadro FX 2500M 24/8 cores @ 500 MHz256 Bit @ 600 MHz
Quadro FX 1700M 32 @ 625 MHz128 Bit @ 800 MHz
Quadro FX 1600M 32 @ 625 MHz128 Bit @ 800 MHz
Quadro FX 1500M 20/7 cores @ 375 MHz256 Bit @ 500 MHz
Quadro FX 770M 32 @ 500 MHz128 Bit @ 800 MHz
Quadro FX 570M 32 @ 475 MHz128 Bit @ 700 MHz
Quadro FX 380M 16 @ 625 MHz64 Bit @ 800 MHz
Quadro FX 370M 8 @ 580 MHz64 Bit @ 700 MHz
Quadro FX 360M 16 @ 400 MHz64 Bit @ 600 MHz
Quadro FX 350M 4/3 cores @ 450 MHz64 Bit @ 350 MHz
CodenameG71GLMG71glmn10m-glm
ArchitectureG7xG7xGT2xx
24 / 8 24 / 8 16 -
Core575 MHz500 MHz625 MHz
Memory700 MHz600 MHz800 MHz
Bus256 Bit256 Bit64 Bit
MemoryGDDR3GDDR3GDDR3, DDR3
Max. Memory512 MB512 MB512 MB
nonono
DirectXDirectX 9c, 3.0DirectX 9c, 3.0DirectX 10.1, 4.1
Transistors278 Million278 Million260 Million
Technology90 nm90 nm40 nm
Features12-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 technology90nmDirectX Compute Support (Windows 7), CUDA, OpenCL, OpenGL 2.1, certified drivers
Size
Introduced01.03.2007 29.09.2005 07.01.2010
Manufacturerhttp://www.nvidia.com/page/quadrofx_go.h...http://www.nvidia.de/page/quadrofx_go.htmlhttp://www.nvidia.com/object/product_qua...
Shader1530 MHz

3DMark 2001SE - Standard 1024x768
27600 Points (29%)
3DMark 03 - Standard 1024x768
20736 Points (11%)
min: 18100     avg: 18341.5     median: 18341 (10%)     max: 18583 Points
3DMark 05 - Standard 1024x768
9295 Points (18%)
min: 8400     avg: 8450     median: 8450 (16%)     max: 8500 Points
7095 Points (13%)
3DMark 06 + NVIDIA Quadro FX 3500M
+ NVIDIA Quadro FX 2500M
+ NVIDIA Quadro FX 380M

Average Benchmarks NVIDIA Quadro FX 3500M → 100%

Average Benchmarks NVIDIA Quadro FX 2500M → 92%

Average Benchmarks NVIDIA Quadro FX 380M → 73%

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* Smaller numbers mean a higher performance
1 This benchmark is not used for the average calculation

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Redaktion, 2017-09- 8 (Update: 2017-09-11)