The AMD FirePro W7000 graphic card was introduced into the market on June 2012. This video card is powered by 1280 processors each running at a clock speed of 950 MHz. The FirePro W7000 comes with 4096 MB of GDDR5 memory. This memory is capable or reaching a bandwidth of up to 153.6 GB/s.
Performance And Power
The FirePro W7000 graphic card can deliver a single precision computing power of 2432 GFLOPS. Furthermore, this video card can achieve a pixel fill rate of 30.4 Gigapixels/s and a texture fill rate of 76 Gigatexels/s. The maximum power consumption of the FirePro W7000graphic card is 150 W.
The FirePro W7000 video card is compatible with motherboards with PCI-E 3.0 x 16 support. Furthermore, this video card can support up to Up to 4 displays monitors and the display port supported by this video card are: "4 x DisplayPort".
As per the software support, it can support the following programming interfaces and libraries: " DirectX 11.1, OpenCL 1.2, Shader Model 5.0 ". OpenGL is a cross language and multi-platform application programming interface for rendering 2D and 3D vector graphics. OpenGL is used to interact with a GPU to harness Hardware-accelerated rendering and eliminates the need to recompile shaders making it an efficient and performance oriented standard. Microsoft DirectX is an Application programming Interface for the Windows operating systems which Integrates well with AMD and NVIDIA GPUs. The Microsoft DirectX 10 is a significant step in 3D graphics. It features a highly optimized runtime, powerfull geometry sharders, and many other features. The Microsoft DirectX 11, introduced with Windows 7, brings numerous improvement over its precedessor DirectX 10. It is designed to be more efficient, supports sophisticated shading and texturing techniques and levearage the use of multi processors, resulting in smoother 3D animations. The open computing language (OpenCL) is programming interface used for general purpose programming across CPUs and GPUs and other processors. The standard gives developers the portability and efficiency of heterogeneous processing platforms.