NVIDIA GeForce 8800M GTX SLI vs vs Vivante GC1000+ Dual-Core
NVIDIA GeForce 8800M GTX SLI
► remove from comparisonTwo Nvidia GeForce 8800M GTX cards are combined in SLI. With this setup, users should be able to play DirectX 10 PC games on high detail settings and resolutions. Nonetheless, not every game supports SLI efficiently. As a result, only an increase of 0-40% is obtainable over a single 8800M GTX, depending on the application and driver support. Overall performance should still be similar to a 9800M GT SLI combination.
A particular feature of the GeForce 8800M GTX SLI is Unified Shaders. Dedicated pixel and vertex shaders have been replaced with 2x96 Stream Processors, which have now taken over much of the graphics rendering work. The Shader units are also clocked higher than the core chip itself (1250 MHz versus 800 MHz).
The performance of an 8800M GTX in SLI is much better than an 8700M GT in SLI and even the GeForce 7950 GTX in SLI.
The current consumption (about 2x35 Watt TDP) and created heat of dual 8800M GTX cards are much higher compared to the 8700M GT in SLI. This reserves the 8800M GTX SLI setup for larger laptops with more powerful (and possibly louder) cooling solutions.
Vivante GC1000+ Dual-Core
► remove from comparisonThe Vivante GC1000+ Dual-Core is an integrated graphics card for ARM based SoCs. It supports Android, Windows Mobile 6, Windows CE and Linux and the standards OpenGL ES 2.0, OpenGL 2.1, OpenVG 1.1, and DirectX 11 (9_3). The chip is can be clocked with up to 600 MHz (28nm LP) or 800 MHz (28nm HPM). The theoretical calculating power of the GPU is 50 Mio triangles / s, 650 Mio pixels / s and 12 GFLOPS (according to cnx-software.com). According to Vivante however the GC1000 is capable of 345 to 460 Mio triangles /s and 11 to 15 GFLOPS.
NVIDIA GeForce 8800M GTX SLI | Vivante GC1000+ Dual-Core | ||||||||||||||||||||||||||
Series |
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Codename | NB8E-GTX | ||||||||||||||||||||||||||
Architecture | G9x | ||||||||||||||||||||||||||
Pipelines | 192 - unified | 2 - unified | |||||||||||||||||||||||||
Core Speed | 500 MHz | 600 / 800 MHz | |||||||||||||||||||||||||
Shader Speed | 1250 MHz | ||||||||||||||||||||||||||
Memory Speed | 800 MHz | ||||||||||||||||||||||||||
Memory Bus Width | 256 Bit | ||||||||||||||||||||||||||
Memory Type | GDDR3 | ||||||||||||||||||||||||||
Max. Amount of Memory | 512 MB | ||||||||||||||||||||||||||
Shared Memory | no | no | |||||||||||||||||||||||||
API | DirectX 10, Shader 4.0 | DirectX 9_3, OpenGL 2.1 / ES 2.0 | |||||||||||||||||||||||||
Power Consumption | 130 Watt | ||||||||||||||||||||||||||
Transistors | 1.5 Billion | ||||||||||||||||||||||||||
technology | 65 nm | ||||||||||||||||||||||||||
Features | 1250 MHz Shader frequence, probably: PureVideo Technology (H.264, VC-1, MPEG2, WMV9 Decoder acceleration), HDCP-capable, PowerMizer 7.0 energy management (dynamic switching between performance and energy saving), HDR (High Dynamic-Range Lighting), designed for Windows Vista, Dual-Link DVI-D exits for resolutions of TFT up to 2560x1600, PCI-E 16x, OpenGL 2.1, Gigathread technology | ||||||||||||||||||||||||||
Notebook Size | large | ||||||||||||||||||||||||||
Date of Announcement | 19.11.2007 | 12.09.2013 | |||||||||||||||||||||||||
Information | 2 graphic cards combined by SLI | ||||||||||||||||||||||||||
Link to Manufacturer Page | www.nvidia.com |