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    • 1. 发明申请
    • Differential encoding using a 3d graphics processor
    • 使用3d图形处理器的差分编码
    • US20070146380A1
    • 2007-06-28
    • US10569345
    • 2004-08-20
    • Jorn NystadEdvard SorgardBorgar LjoslandMario Blazevic
    • Jorn NystadEdvard SorgardBorgar LjoslandMario Blazevic
    • G09G5/00
    • H04N19/43
    • A 3D graphics rendering pipeline is used to carry out data comparisons for motion estimation in video data encoding. Video data for the pixel block of the video frame currently being encoded is loaded into the output buffers of the rendering pipeline. The video data for the comparison pixel blocks from the reference video frame is stored as texture map values in the texture cache of the rendering pipeline. Once the sets of pixel data for comparison have been stored, the rendering pipeline is controlled to render a primitive having fragment positions and texture coordinates corresponding to the data values that it is desired to compare. As each fragment is rendered, the stored and rendered fragment data is compared by fragment compare unit and the determined differences in the data values are accumulated in an error term register.
    • 3D图形渲染流水线用于对视频数据编码中的运动估计进行数据比较。 当前正在编码的视频帧的像素块的视频数据被加载到渲染管线的输出缓冲器中。 来自参考视频帧的比较像素块的视频数据作为纹理映射值存储在渲染管线的纹理缓存中。 一旦已经存储了用于比较的像素数据集合,则控制渲染流水线以渲染具有对应于期望比较的数据值的片段位置和纹理坐标的原始图像。 当渲染每个片段时,通过片段比较单元比较存储和渲染的片段数据,并将所确定的数据值差异累积在错误项寄存器中。
    • 2. 发明授权
    • Differential encoding using a 3D graphics processor
    • 使用3D图形处理器的差分编码
    • US08421821B2
    • 2013-04-16
    • US13334822
    • 2011-12-22
    • Jorn NystadEdvard SorgardBorgar LjoslandMario Blazevic
    • Jorn NystadEdvard SorgardBorgar LjoslandMario Blazevic
    • G09G5/00
    • H04N19/43
    • A 3D graphics rendering pipeline is used to carry out data comparisons for motion estimation in video data encoding. Video data for the pixel block of the video frame currently being encoded is loaded into the output buffers of the rendering pipeline. The video data for the comparison pixel blocks from the reference video frame is stored as texture map values in the texture cache of the rendering pipeline. Once the sets of pixel data for comparison have been stored, the rendering pipeline is controlled to render a primitive having fragment positions and texture coordinates corresponding to the data values that it is desired to compare. As each fragment is rendered, the stored and rendered fragment data is compared by fragment compare unit and the determined differences in the data values are accumulated in an error term register.
    • 3D图形渲染流水线用于对视频数据编码中的运动估计进行数据比较。 当前正在编码的视频帧的像素块的视频数据被加载到渲染管线的输出缓冲器中。 来自参考视频帧的比较像素块的视频数据作为纹理映射值存储在渲染管线的纹理缓存中。 一旦已经存储了用于比较的像素数据集合,则控制渲染流水线以渲染具有对应于期望比较的数据值的片段位置和纹理坐标的原始图像。 当渲染每个片段时,通过片段比较单元比较存储和渲染的片段数据,并将所确定的数据值差异累积在错误项寄存器中。
    • 5. 发明授权
    • Differential encoding using a 3d graphics processor
    • 使用3d图形处理器的差分编码
    • US08106921B2
    • 2012-01-31
    • US10569345
    • 2004-08-20
    • Jorn NystadEdvard SorgardBorgar LjoslandMario Blazevic
    • Jorn NystadEdvard SorgardBorgar LjoslandMario Blazevic
    • G09G5/00
    • H04N19/43
    • A 3D graphics rendering pipeline is used to carry out data comparisons for motion estimation in video data encoding.Video data for the pixel block of the video frame currently being encoded is loaded into the output buffers of the rendering pipeline. The video data for the comparison pixel blocks from the reference video frame is stored as texture map values in the texture cache of the rendering pipeline.Once the sets of pixel data for comparison have been stored, the rendering pipeline is controlled to render a primitive having fragment positions and texture coordinates corresponding to the data values that it is desired to compare. As each fragment is rendered, the stored and rendered fragment data is compared by fragment compare unit and the determined differences in the data values are accumulated in an error term register.
    • 3D图形渲染流水线用于对视频数据编码中的运动估计进行数据比较。 当前正在编码的视频帧的像素块的视频数据被加载到渲染管线的输出缓冲器中。 来自参考视频帧的比较像素块的视频数据作为纹理映射值存储在渲染管线的纹理缓存中。 一旦已经存储了用于比较的像素数据集合,则控制渲染流水线以渲染具有对应于期望比较的数据值的片段位置和纹理坐标的原始图像。 当渲染每个片段时,通过片段比较单元比较存储和渲染的片段数据,并将所确定的数据值差异累积在错误项寄存器中。
    • 6. 发明申请
    • Processing of 3-Dimensional Graphics
    • 三维图形处理
    • US20080100627A1
    • 2008-05-01
    • US11667656
    • 2005-11-15
    • Jorn NystadMario BlazevicBorgar LjoslandEdvard Sorgard
    • Jorn NystadMario BlazevicBorgar LjoslandEdvard Sorgard
    • G06F15/16
    • G06T15/005
    • A graphic rendering pipeline has a number of different rendering units and receives fragments for rendering. A renderer stated word cache is used to store rendering state data to be used to configure the rendering units when they render a fragment. Each rendering unit includes a functional block which carries out a rendering operation on a received fragment and a renderer state word interface that can be used to look up the required rendering state data from the renderer state word cache. Each fragment is provided to the rendering pipeline with fragment data that indicates, inter alia, a fragment index, a renderer state word index, and other fragment data that is necessary to render the fragment. When a rendering unit of the rendering pipeline receives a fragment to be rendered, it firstly uses the renderer state word index associated with the fragment to look-up, using its renderer state word interface, the relevant rendering state data from the renderer state word cache. It then uses that rendering state data to configure its functional block, and then renders the fragment.
    • 图形渲染流水线具有多个不同的渲染单元,并接收用于渲染的碎片。 渲染器说,字缓存用于存储渲染状态数据,用于在呈现片段时配置渲染单元。 每个渲染单元包括对接收到的片段执行渲染操作的功能块和可用于从渲染器状态字高速缓存查找所需渲染状态数据的渲染器状态字界面。 每个片段被提供给具有片段数据的片段数据,片段数据特别指出片段索引,渲染器状态字索引和渲染片段所必需的其他片段数据。 当渲染流水线的渲染单元接收到要渲染的片段时,首先使用与片段相关联的渲染器状态字索引来使用其渲染器状态字界面来查找来自渲染器状态字高速缓存的相关渲染状态数据 。 然后使用该渲染状态数据来配置其功能块,然后渲染该片段。
    • 7. 发明申请
    • Processing Of Computer Graphics
    • 计算机图形处理
    • US20080012878A1
    • 2008-01-17
    • US11791753
    • 2005-11-29
    • Jorn NystadMario BlazevicBorgar LjoslandEdvard Sorgard
    • Jorn NystadMario BlazevicBorgar LjoslandEdvard Sorgard
    • G09G5/00
    • G06T15/503G06T11/001
    • A graphics processing platform includes a rasteriser 50 that receives primitives representing an image to be displayed for processing. The rasteriser 50 determines which sets of sampling points of the image include sampling points that are covered by a given primitive, and then generates a fragment for rendering for each set of sampling points found to include a sampling point that is covered by the primitive and passes those fragments to a renderer 51 for rendering. The renderer 51 carries out rendering operations on the fragments that it receives, and stores the rendered fragment data in tile buffers 52. The rendered fragment data is stored in multiple copies in the appropriate sample positions in the tile buffers 52, so as to provide a separate set of fragment data for each individual sample position taken of the image. The data from the tile buffers 52 is input to a downsampling unit 53, and thence output to a frame buffer 54 of a display device 55 for display.
    • 图形处理平台包括光栅器50,其接收表示待显示以供处理的图像的图元。 光栅化器50确定图像的哪组采样点包括由给定原语所覆盖的采样点,然后生成用于为每组采样点进行渲染的片段,该采样点被发现包括由原语覆盖并通过的采样点 那些片段到渲染器51渲染。 渲染器51对其接收的片段执行渲染操作,并将渲染的片段数据存储在片缓冲器52中。 渲染的片段数据以瓦片缓冲器52中的适当采样位置的多个副本存储,以便为图像中的每个单独采样位置提供一组单独的碎片数据。 来自瓦片缓冲器52的数据被输入到下采样单元53,然后输出到显示设备55的帧缓冲器54以进行显示。
    • 9. 发明申请
    • Method Of And Apparatus For Encoding Data
    • 用于编码数据的方法和装置
    • US20090021521A1
    • 2009-01-22
    • US11885442
    • 2006-03-03
    • Edvard SorgardBorgar LjoslandJorn NystadMario BlazevicFrode Heggelund
    • Edvard SorgardBorgar LjoslandJorn NystadMario BlazevicFrode Heggelund
    • G09G5/00
    • G06T9/00
    • An array of texture data elements (texels) is subdivided into a plurality of 8×4 texture element blocks, each of which 8×4 texture element blocks encodes two 4×4 texture element sub-blocks 3, 4. Each encoded texture data block includes data indicating a method to be used to generate a set of colour values to be used for the texture elements that the encoded data block represents, and data indicating a method to be used for generating the colours of the individual texture elements using that generated set of colours. As well as the individual texture data blocks, a header data block encoding a base set of colours is generated. This base colour set defines a set of colours that is used to generate the colours to be used when reproducing each individual encoded texture data block.
    • 纹理数据元素(纹理素材)的阵列被细分为多个8×4纹理元素块,每个纹理元素块8×4纹理元素块对两个4×4纹理元素子块3,4进行编码。每个编码纹理数据块包括指示 用于生成要用于编码数据块表示的纹理元素的一组颜色值,以及指示用于使用所生成的一组颜色来生成各个纹理元素的颜色的方法的数据。 除了各个纹理数据块之外,还生成编码基本颜色集合的标题数据块。 该基色组定义了一组颜色,用于在再现每个单独编码的纹理数据块时产生要使用的颜色。
    • 10. 发明申请
    • Microprocessor systems
    • 微处理器系统
    • US20060161704A1
    • 2006-07-20
    • US10543327
    • 2004-01-22
    • Jorn NystadEdvard SorgardBorgar LjoslandMario Blazevic
    • Jorn NystadEdvard SorgardBorgar LjoslandMario Blazevic
    • G06F13/42
    • G06F12/1408G06F9/54G06F12/10G06F13/1673G06F13/4068G06F13/4221G06F2212/1052G06T1/20
    • A slave device (20) communicates with a host system (21) via a host communications bus (22). The host system (21) includes one (or more) processing units that can act as bus masters and send access requests for slave resources on the slave device (20) via the communications bus (22). The slave device platform (20) includes a memory management unit (23), a programmable central processing unit (24) and one or more slave resources (25). The memory management unit (23) acts as an address translating device, and accepts requests with virtual addresses from the master device or devices on the host system (21), translates the virtual addresses used in the access requests to the “internal” physical addresses of the slave's resources and forwards the accesses of the appropriate physical resources (25). When an address miss occurs in the memory management unit (23), it passes the handling of the access request over to the controlling CPU (24) which executes software to then resolve the address miss and handle the access request. The memory management unit (23) also includes a write buffer (29) into which it can write the write value received from a master on the host system (21) on an access when an address miss occurs, and a read buffer (28) for storing values relating to read requests that have generated an address miss.
    • 从设备(20)经由主机通信总线(22)与主机系统(21)通信。 主机系统(21)包括一个(或多个)处理单元,其可以充当总线主控器,并且经由通信总线(22)在从设备(20)上发送对从属资源的访问请求。 从设备平台(20)包括存储器管理单元(23),可编程中央处理单元(24)和一个或多个从属资源(25)。 存储器管理单元(23)用作地址转换设备,并且接受来自主设备或主机系统(21)上的设备的虚拟地址的请求,将访问请求中使用的虚拟地址转换为“内部”物理地址 的从属资源,并转发适当物理资源的访问(25)。 当存储器管理单元(23)中发生地址缺失时,它将访问请求的处理传递给执行软件的控制CPU(24),从而解决地址缺失并处理访问请求。 存储器管理单元(23)还包括写入缓冲器(29),当地址未发生时,写入缓冲器(29)可以向存储器上写入从主机系统(21)上的主机接收的写入值;读取缓冲器(28) 用于存储与产生地址未命中的读请求有关的值。