基于fpga增强TriMedia处理器的MPEG解码彩色空间转换

Proceedings IEEE International Conference on Application-Specific Systems, Architectures, and Processors. ASAP 2003 Pub Date : 2003-06-24 DOI:10.1109/ASAP.2003.1212848

M. Sima, S. Vassiliadis, S. Cotofana, J. V. Eijndhoven

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引用次数: 21

摘要

本文介绍了在fpga增强的TriMedia处理器上进行MPEG解码彩色空间转换(CSC)的实例研究。也就是说，处理从Y' cbcr颜色空间到R' g ' b '颜色空间的变换。首先，我们概述了TriMedia架构的扩展，该架构由基于fpga的可重构功能单元(RFU)和相关指令组成。然后，我们分析了一个每次调用可以处理4个像素的CSC (RFU专用)指令，并提出了一个在RFU上实现CSC操作的方案。当映射到ACEX EP1K100 FPGA上时，所提出的CSC表现出10的延迟和2 TriMedia@200 MHz周期的恢复，并占据57%的设备。通过在应用程序加载时在RFU上配置CSC设施，可以在fpga增强的TriMedia上计算色彩空间转换，比标准TriMedia加速40%。

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Color space conversion for MPEG decoding on FPGA-augmented TriMedia processor

A case study on color space conversion (CSC) for MPEG decoding, carried out on the FPGA-augmented TriMedia processor is presented. That is, a transform from Y'CbCr color space to R'G'B' color space is addressed. First, we outline the extension of TriMedia architecture consisting of FPGA-based reconfigurable functional units (RFU) and associated instructions. Then we analyse a CSC (RFU-specific) instruction which can process four pixels per call, and propose a scheme to implement the CSC operation on RFU(s). When mapped on an ACEX EP1K100 FPGA, the proposed CSC exhibits a latency of 10 and a recovery of 2 TriMedia@200 MHz cycles, and occupies 57% of the device. By configuring the CSC facility on the RFU(s) at application load-time, color space conversion can be computed on FPGA-augmented TriMedia with 40% speed-up over the standard TriMedia.

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来源期刊

Proceedings IEEE International Conference on Application-Specific Systems, Architectures, and Processors. ASAP 2003

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