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In computing, D3DX (Direct3D Extension) is a high level API library which is written to supplement Microsoft's Direct3D graphics API. The D3DX library was introduced in Direct3D 7, and subsequently was improved in Direct3D 9. It provides classes for common calculations on vectors, matrices and colors, calculating look-at and projection matrices ...
DXVK was first developed by Philip Rebohle to support Direct3D 11 games only [13] as a result of poor compatibility and low performance of Wine's Direct3D 11 to OpenGL translation layer. In 2018, the developer was sponsored by Valve to work on the project full-time in order to advance compatibility of the Linux version of Steam with Windows games.
Snes9x was among the first to emulate most SNES enhancement chips at some level. [citation needed] In version 1.53, it added support for Cg shaders. [5] Version 1.55 added support for the MSU1 enhancement chip [6] found on the SD2SNES [7] The emulator PocketSNES for Pocket PCs is based on Snes9X. [8]
In Direct3D 11.4 for Windows 10, there are nine feature levels provided by D3D_FEATURE_LEVEL structure; levels 9_1, 9_2 and 9_3 (collectively known as Direct3D 10 Level 9) re-encapsulate various features of popular Direct3D 9 cards, levels 10_0, 10_1 refer to respective legacy versions of Direct3D 10, [65] 11_0 and 11_1 reflects the feature ...
In Direct3D 11, the concept of feature levels has been further expanded to run on most downlevel hardware including Direct3D 9 cards with WDDM drivers.. There are seven feature levels provided by D3D_FEATURE_LEVEL structure; levels 9_1, 9_2 and 9_3 (collectively known as Direct3D 10 Level 9) re-encapsulate various features of popular Direct3D 9 cards conforming to Shader Model 2.0, while ...
The unified shader model uses the same hardware resources for both vertex and fragment processing. In the field of 3D computer graphics, the unified shader model (known in Direct3D 10 as "Shader Model 4.0") refers to a form of shader hardware in a graphical processing unit (GPU) where all of the shader stages in the rendering pipeline (geometry, vertex, pixel, etc.) have the same capabilities.
In the field of 3D computer graphics, deferred shading is a screen-space shading technique that is performed on a second rendering pass, after the vertex and pixel shaders are rendered. [2] It was first suggested by Michael Deering in 1988. [3] On the first pass of a deferred shader, only data that is required for shading computation is gathered.
DirectX 11 (Shader Model 5) introduced compute shaders and tessellation shaders (hull and domain). The latter is present in Cg 3.1. The latter is present in Cg 3.1. DirectX 12 (Shader Model 6.3) introduced ray tracing shaders (ray generation, intersection, bit / closest hit / miss).