基于CPU_MIC_GPU异构架构的Roberts算法优化探究  被引量:5

The Research of Optimized Roberts Algorithm Based on Heterogeneous CPU/MIC/GPU Architecture

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作  者:洪向共[1] 陈威[1] 熊镝[1] HONG Xiang-gong CHEN Wei XIONG Di(Nanehang University,Nanehang 330031, P. R. China)

机构地区:[1]南昌大学,南昌330031

出  处:《科学技术与工程》2016年第36期217-222,共6页Science Technology and Engineering

基  金:国家自然科学基金(61561034)资助

摘  要:在高分辨率图像日益普及的情况下,Roberts边缘检测的处理速度急需进一步提高。在CPU表现不尽如人意的情况下,基于CPU/GPU和CPU/MIC的高度并行运算的研究愈加深入。在分析Roberts算法特点的基础上,将能并行的部分移植到GPU和MIC上进行。完成基于CPU/GPU和CPU/MIC的异构架构上的Roberts算法实现,并针对CPU/MIC上将程序进行向量化优化。实验结果表明,在相同单精度浮点运算能力下,GPU处理低分辨率图像的速度更快、加速比更高,但处理高分辨率图像时MIC的加速比最高为23.52,高于GPU的21.43。In the case of the growing popularity of high-resolution images, the Roberts edge detection processing speed urgent need to further improve. Because the disappointing performance of CPU, the height parallel computing research based on the CPU/GPU and CPU/MIC become deepened. On the basis of analysis of the characteristics of Roberts algorithm, the part of the parallel will be respectively transplanted into GPU and MIC. Accomplish the Ro- berts algorithm which is based on CPU/GPU and CPU/MIC in a Heterogeneous architecture, and optimization the procedure aim at CPU/MIC. Experimental results show that, in the same single-precision FLOPS, the GPU pro- cessing low resolution image than faster, higher, but the MIC when dealing with high resolution images faster, speed is higher.

关 键 词:MIC GPU Roberts边缘检测 Gauss滤波 并行运算 图像处理 

分 类 号:TP751.1[自动化与计算机技术—检测技术与自动化装置]

 

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