使用RVC技术的FPGA动态重构:逆量化案例研究

Proceedings of the 2011 Conference on Design & Architectures for Signal & Image Processing (DASIP) Pub Date : 2011-11-02 DOI:10.1109/DASIP.2011.6136863

M. Hentati, Y. Aoudni, J. Nezan, Mohamed Abid, O. Déforges

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引用次数: 11

摘要

随着技术的快速发展，最新的FPGA架构(如Xilinx的Virtex系列)引入了一种称为动态部分重新配置(DPR)的新功能。这种技术允许设计人员配置FPGA的一部分，而其他部分继续在同一FPGA上运行。基于DPR功能的嵌入式系统的设计仍然是复杂而繁琐的。MPEG联盟提出了可重构视频编码(RVC)技术。RVC提供了视频解码器的高级描述，描述为一组相互连接的功能单元。本文研究了利用RVC技术进行应用程序的规范和基于DPR功能的系统设计。本文研究了MPEG-4解码器的逆量化(IQ)算法，以及如何使用RVC和DPR在MPEG-2和H263 IQ算法之间进行切换。这个简单而具体的案例研究强调了为了使用DPR，在MPEG RVC描述中需要考虑的DPR限制。

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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FPGA dynamic reconfiguration using the RVC technology: Inverse quantization case study

With the rapid evolution of technology, the latest FPGA architectures such as Virtex series of Xilinx introduced a new feature called Dynamic Partial Reconfiguration (DPR). This technique allows designer to configure a portion of the FPGA while other parts continue to run on the same FPGA. The design of an embedded system based on the DPR functionality is still complex and tedious. The MPEG consortium proposes the Reconfigurable Video Coding (RVC) technology. RVC provides a high level description of video decoders described as a set of interconnected Functional Units. This paper studies the use of the RVC technology for the specification of an application and the design of a system based on the DPR functionality. In this paper, we study the Inverse Quantization (IQ) algorithm of an MPEG-4 decoder and how to switch between the MPEG-2 and the H263 IQ algorithms using RVC and DPR. This simple and concrete case study highlights the DPR restrictions to take into account in MPEG RVC description in order to use the DPR.

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Proceedings of the 2011 Conference on Design & Architectures for Signal & Image Processing (DASIP)

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