Abstract: Concurrently with performing a visibility pass to generate visibility data for two or more bins of an image, a processing system determines whether a primitive to be rendered covers at least a predetermined threshold percentage of a tile of the image. In response to the primitive coving at least the predetermined threshold percentage of the tile, the processing system stores the depth data of the primitive in a depth buffer for pixel-based rendering. In response to the primitive not covering at least the predetermined threshold percentage of the tile, the processing system fuses the primitive with one or more preceding primitives sharing an edge with the primitive in the tile to generate a fused primitive. In response to the fused primitive being valid in the tile, the processing system passes the depth data of the fused primitive to the depth buffer.

Abstract: Currently with performing a visibility pass for two or more coarse bins of an image, a processing system determines a bounding box for a primitive to be rendered for the image based on a bottom left-most point of the primitive and a top right-most point of the primitive. The processing system then determines whether each tile of the image inside the boundary box is completely covered by the primitive. In response to the primitive not completely covering a tile, the depth data for the primitive in that tile is discarded. In response to the primitive completely covering a tile, the depth data for the primitive in that tile is passed on to a depth buffer. Based on the depth data passed to the depth buffer, the processing system then performs pixel-based rendering of the primitive.

Abstract: Described is a method of rendering an image. A transparency of a destination pixel and a transparency of a source pixel are determined at multiple sample positions in each pixel. A new pre-multiplied color is determined for the destination pixel in response to the transparencies of the destination pixel, the transparencies of the source pixel, a color of the source pixel and a pre-multiplied color of the destination pixel. New transparencies of the destination pixel are determined at the samples in the destination pixel in response to the transparencies of the source pixels and the transparencies of the destination pixel. The method of the present invention permits rendering of polygonal two-dimensional images while eliminating overdraw, therefore using less memory bandwidth than conventional methods for rendering typical two-dimensional vector images. Thus the method is suited for mobile computing and other applications with limited memory bandwidth.

Abstract: A video graphics system, graphics processor, and method of reducing memory bandwidth consumption include logic that groups binary data of a block of pixels into bit-planes. Each bit-plane corresponds to a different bit position in the binary data of the block and includes a bit value from each pixel in the block at that corresponding bit position. An encoding, associated with the block of pixels, represents which ones of the bit-planes are constant-value bit-planes having binary data comprised of a same bit value from every pixel in the block and which of the bit-planes are mixed-value bit-planes. Logic accesses memory storing the block of pixels to process the binary data of each mixed-value bit-plane and accesses memory storing the encoding to process the binary data of each constant-value bit-plane when a processing operation is performed on the block of pixels.

Abstract: A video graphics system, graphics processor, and method of reducing memory bandwidth consumption include logic that groups binary data of a block of pixels into bit-planes. Each bit-plane corresponds to a different bit position in the binary data of the block and includes a bit value from each pixel in the block at that corresponding bit position. An encoding, associated with the block of pixels, represents which ones of the bit-planes are constant-value bit-planes having binary data comprised of a same bit value from every pixel in the block and which of the bit-planes are mixed-value bit-planes. Logic accesses memory storing the block of pixels to process the binary data of each mixed-value bit-plane and accesses memory storing the encoding to process the binary data of each constant-value bit-plane when a processing operation is performed on the block of pixels.

Abstract: Described is a method of rendering an image. A transparency of a destination pixel and a transparency of a source pixel are determined at multiple sample positions in each pixel. A new pre-multiplied color is determined for the destination pixel in response to the transparencies of the destination pixel, the transparencies of the source pixel, a color of the source pixel and a pre-multiplied color of the destination pixel. New transparencies of the destination pixel are determined at the samples in the destination pixel in response to the transparencies of the source pixels and the transparencies of the destination pixel. The method of the present invention permits rendering of polygonal two-dimensional images while eliminating overdraw, therefore using less memory bandwidth than conventional methods for rendering typical two-dimensional vector images. Thus the method is suited for mobile computing and other applications with limited memory bandwidth.