基于移动CPU平台的多媒体播放器性能优化

Hoseok Chang, Youngjoon Lee, Wonyong Sung
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引用次数: 5

摘要

我们针对开源多媒体播放器MPlayer进行了移动平台专用软件和系统优化。目标系统基于Intel XScale PXA270 CPU。优化过程包括4个步骤:利用颜色转换硬件、采用SIMD优化、提高外部存储器访问速度、利用内部存储器。在每个优化步骤中,我们测量了执行时间、缓存丢失特征和功耗。基于qvga大小的MPEG4电影剪辑的实验结果表明,基于硬件的颜色转换和SIMD优化分别减少了19.2%和27.6%的执行时间,而提高外部存储器访问速度和利用内部存储器可额外减少35.9%的执行时间。结果表明,采用更快的数据总线设置和利用内部SRAM来打破内存总线瓶颈是非常重要的。
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Performance Optimization of a Multimedia Player on a Mobile CPU Platform
We conducted a mobile platform specific software and system optimization for an open-source multimedia player, MPlayer. The target system is based on the Intel XScale PXA270 CPU. The optimization process consists of 4 steps: utilizing the color conversion hardware, adopting SIMD optimization, increasing the external memory access speed, and exploiting the internal memory. At each optimization step, we measured the execution time, cache miss characteristics, and power consumption. The experimental results with a QVGA-sized MPEG4 movie clip show that hardware based color conversion and SIMD optimization bring about 19.2% and 27.6% of execution time reduction, respectively, while increasing the external memory access speed and utilizing the internal memory result in 35.9% additional execution time reduction. The results show that it is important to break the memory bus bottleneck by using faster data bus settings and exploiting internal SRAM.
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