Patent application number | Description | Published |
20080297528 | METHOD AND SYSTEM FOR PROCESSING TEXTURE SAMPLES WITH PROGRAMMABLE OFFSET POSITIONS - A method and system for performing a texture operation with user-specified offset positions are disclosed. Specifically, one embodiment of the present invention sets forth a method, which includes the steps of deriving a first destined texel position based on an original sample position associated with a pixel projected in a texture map and a first offset position specified by a user and fetching texel attributes at the first destined texel position for the texture operation. | 12-04-2008 |
20140125669 | SETTING DOWNSTREAM RENDER STATE IN AN UPSTREAM SHADER - Techniques are disclosed for processing graphics objects in a stage of a graphics processing pipeline. The techniques include receiving a graphics primitive associated with the graphics object, and determining a plurality of attributes corresponding to one or more vertices associated with the graphics primitive. The techniques further include determining values for one or more state parameters associated with a downstream stage of the graphics processing pipeline based on a visual effect associated with the graphics primitive. The techniques further include transmitting the state parameter values to the downstream stage of the graphics processing pipeline. One advantage of the disclosed techniques is that visual effects are flexibly and efficiently performed. | 05-08-2014 |
20140267264 | GENERATING ANTI-ALIASED VOXEL DATA - One embodiment of the present invention sets forth a technique for performing voxelization. The technique involves identifying a voxel that is intersected by a first graphics primitive that has a front side and a back side and selecting a plurality of sample points within the voxel. The technique further involves determining, for each sample point included in the plurality of sample points, whether the sample point is located on the front side of the first graphics primitive or on the back side of the first graphics primitive. Finally, the technique involves storing, for at least a first sample point included in the plurality of sample points, a first result in a voxel mask reflecting whether the first sample point is located on the front side of the first graphics primitive or on the back side of the first graphics primitive. | 09-18-2014 |
20140267265 | GENERATING ANTI-ALIASED VOXEL DATA - One embodiment of the present invention sets forth a technique for performing voxelization. The technique involves determining that a first graphics primitive intersects a voxel and calculating a first set of coefficients associated with a first plane defined by the intersection of the first graphics primitive and the voxel. The technique further involves determining that a second graphics primitive intersects the voxel and calculating a second set of coefficients associated with a second plane defined by the intersection of the second graphics primitive and the voxel. The technique further involves calculating a third set of coefficients associated with a third surface based on the first set of coefficients and the second set of coefficients. The technique further involves calculating at least one of an amount of the voxel that is located on the back side of the third surface and an occlusion value based on the third set of coefficients. | 09-18-2014 |
20140267266 | GENERATING ANTI-ALIASED VOXEL DATA - One embodiment of the present invention sets forth a technique for performing voxelization. The technique involves determining that a voxel is intersected by a first graphics primitive that has a front side and a back side and selecting one or more reference points within the voxel. The technique further involves, for each reference point, determining a distance from the reference point to the first graphics primitive and storing a first scalar value in an array based on the distance. The sign of the first scalar value reflects whether the reference point is located on the front side of the first graphics primitive or on the back side of the first graphics primitive. | 09-18-2014 |
20150084974 | TECHNIQUES FOR INTERLEAVING SURFACES - One embodiment sets forth a method for allocating memory to surfaces. A software application specifies surface data, including interleaving state data. Based on the interleaving state data, a surface access unit bloats addressees derived from discrete coordinates associated with the surface, creating a bloated virtual address space with a predictable pattern of addresses that do not correspond to data. Advantageously, by creating predictable regions of addresses that do not correspond to data, the software application program may configure the surface to share physical memory space with one or more other surfaces. In particular, the software application may map the virtual address space together with one or more virtual address spaces corresponding to complementary data patterns to the same physical base address. And, by overlapping the virtual address spaces onto the same pages in physical address space, the physical memory may be more densely packed than by using prior-art allocation techniques. | 03-26-2015 |