Architecture of an image rendering co-processor for MPEG-4 systems

Proceedings IEEE International Conference on Application-Specific Systems, Architectures, and Processors Pub Date : 2000-07-10 DOI:10.1109/ASAP.2000.862374

Mladen Berekovic, P. Pirsch, T. Selinger, Kai-Immo Wels, C. Miro, A. Lafage, C. Heer, G. Ghigo

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引用次数: 8

Abstract

The TANGRAM VLSI co-processor is intended as a building block for use in system-on-chip (SOC) designs for the versatile MPEG-4 multimedia standard. It is designed to perform the computation intensive final step of MPEG-4 video decoding: compositing of scenes at the display. This includes warping and alpha blending of multiple full-screen video textures in real-lime. TANGRAM consists of a RISC control processor and multiple powerful arithmetic units that perform rendering calculations directly in hardware. This hybrid architecture enables adaptation to changes in algorithms or software support for different video-formats. Communication to a host CPU and video decoding hardware is done via the very common PI-bus on-chip interface. TANGRAM directly interfaces with the ITU-R601/656 digital video output. VHDL implementation and synthesis for a 0.35 /spl mu/ standard-cell library provide an estimate of 100 MHz achievable clock-frequency (worst-case), 52 mm/sup 2/ overall area and 1 Watt power dissipation. TANGRAM has sufficient performance for rendering of MPEG-4 Main Profile@Layer3 scenes (CCIR).

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用于MPEG-4系统的图像渲染协处理器体系结构

TANGRAM VLSI协处理器旨在作为构建块，用于通用MPEG-4多媒体标准的片上系统(SOC)设计。它被设计用于执行计算密集型的MPEG-4视频解码的最后一步:在显示器上合成场景。这包括实时的多个全屏视频纹理的翘曲和alpha混合。TANGRAM由一个RISC控制处理器和多个功能强大的算术单元组成，这些单元直接在硬件中执行渲染计算。这种混合架构能够适应算法的变化或软件对不同视频格式的支持。与主机CPU和视频解码硬件的通信通过非常常见的pi总线片上接口完成。TANGRAM直接与ITU-R601/656数字视频输出接口。0.35 /spl mu/标准单元库的VHDL实现和合成提供了100 MHz可实现时钟频率(最坏情况)，52 mm/sup /总面积和1瓦功耗的估计。TANGRAM对于MPEG-4主要Profile@Layer3场景(CCIR)的渲染具有足够的性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings IEEE International Conference on Application-Specific Systems, Architectures, and Processors

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