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The traditional manual adjustment method suffers some drawbacks, such as the difficulties in adjusting a special region, so it is very important to implement the automatic time gain compensation (ATGC) algorithm in the clinical ultrasound imaging system. Because of the massive computation involved in this ATGC technique, this problem becomes the bottleneck for a clinical real-time imaging system. In this paper, a new parallel algorithm of ATGC based on Fermi GPU (graphics processing unit) is presented. The main procedures of this algorithm include the pre-processing, the speckle detection, the tissue intensity computation, the 2-D surface fitting and the adaptive gain compensation. The key parallel algorithm includes a parallel box filter with coarse-grained, parallel local variance coefficient computation, the optimized parallel matrix transposition, the parallel matrix inversion based on the LU factorization in a coarse-grained parallel way. Test results not only show that the output of the graphics processing unit (GPU) is definitely the same as that of the CPU, but also demonstrate an obvious speedup by using the GPU, that is, with 427 frames per seconol for the image size (512×261) , 267 times faster than the CPU implementation., authors=HE Xingwu1,2 , ZHANG Xia2 , authorsList=HE Xingwu;ZHANG Xia, authorCompany=1. Network & Information Management Center, Chengdu Normal University, Chengdu 611130, China;2. 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科技导报
| 研究论文 2012, 30(31): 61-65
基于Fermi架构的超声图像自动增益补偿并行算法
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何兴无1,2 , 张霞2
作者信息
1. 成都师范学院网络与信息管理中心,成都 611130;2. 成都农业科技职业学院电子信息分院,成都 611130
A Parallel Algorithm of Automatic Time Gain Compensation for Ultrasound Imaging Based on Fermi Architecture
Affiliations
出版时间: 2012-10-28
doi: 10.3981/j.issn.1000-7857.2012.31.009
文章导航
在医学超声成像系统中由于超声波在人体组织内传播会发生衰减,需要对超声图像进行有效的增益补偿,使超声图像的显示效果更好。但大多数自动增益补偿算法在处理时涉及大量的复杂计算,成为临床实时成像系统中的一大性能提升瓶颈,为此提出了一种基于高性能并行计算平台Fermi架构图形处理单元(GPU)的自动增益补偿并行处理算法。本算法主要的处理流程有数据预处理、区域类型检测、组织强度计算、二次曲面拟合以及自适应增益补偿等部分,核心的并行算法设计包括了粗粒度的并行均值滤波、局部方差系数的并行计算、优化的矩阵转置并行实现以及基于LU分解的粗粒度的矩阵求逆的并行实现等方面。数据测试结果显示,与基于CPU的实现相比,采用Fermi架构的GPU处理不仅可以得到完全一致和较好的增益补偿效果,而且可以取得较大的加速效果,满足实时系统需求,对512×261的图像数据能够达到427帧/s的高帧率,速度提高了大约267倍。
高性能并行计算
/
深度增益补偿
/
超声成像
/
图像并行处理算法
Due to the acoustic attenuation in the human body, an efficient gain compensation on the ultrasound image is necessary for a better imaging quality in a medical ultrasound imaging system. The traditional manual adjustment method suffers some drawbacks, such as the difficulties in adjusting a special region, so it is very important to implement the automatic time gain compensation (ATGC) algorithm in the clinical ultrasound imaging system. Because of the massive computation involved in this ATGC technique, this problem becomes the bottleneck for a clinical real-time imaging system. In this paper, a new parallel algorithm of ATGC based on Fermi GPU (graphics processing unit) is presented. The main procedures of this algorithm include the pre-processing, the speckle detection, the tissue intensity computation, the 2-D surface fitting and the adaptive gain compensation. The key parallel algorithm includes a parallel box filter with coarse-grained, parallel local variance coefficient computation, the optimized parallel matrix transposition, the parallel matrix inversion based on the LU factorization in a coarse-grained parallel way. Test results not only show that the output of the graphics processing unit (GPU) is definitely the same as that of the CPU, but also demonstrate an obvious speedup by using the GPU, that is, with 427 frames per seconol for the image size (512×261) , 267 times faster than the CPU implementation.
high performance parallel processing
/
depth gain compensation
/
ultrasound imaging
/
parallel algorithm for image processing
何兴无;张霞.
基于Fermi架构的超声图像自动增益补偿并行算法.
科技导报,
2012
, 30
(31)
: 61
-65
.
DOI: 10.3981/j.issn.1000-7857.2012.31.009
HE Xingwu;ZHANG Xia.
A Parallel Algorithm of Automatic Time Gain Compensation for Ultrasound Imaging Based on Fermi Architecture[J].
Science & Technology Review ,
2012
, 30
(31)
: 61
-65
.
DOI: 10.3981/j.issn.1000-7857.2012.31.009
2012年第30卷第31期
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文章信息
doi: 10.3981/j.issn.1000-7857.2012.31.009
接收时间:2012-05-30
首发时间:2012-10-28
出版时间:2012-10-28
收稿日期:2012-05-30
修回日期:2012-07-05
https://castjournals.cast.org.cn/joweb/kjdb/CN/10.3981/j.issn.1000-7857.2012.31.009
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2种不同金属材料的力学参数
科 属数 种数 占总种数比例 属 种数 占总种数比例 鹅膏菌科Amanitaceae 2 11 5.26 鹅膏菌属 Amanita 10 4.78 小菇科 Mycenaceae 2 12 5.74 丝盖伞属 Inocybe 5 2.39 多孔菌科 Polyporaceae 8 14 6.70 蜡蘑属 Laccaria 5 2.39 红菇科 Russulaceae 3 23 11.00 小皮伞属 Marasmius 6 2.87 小菇属 Mycena 11 5.26 光柄菇属 Pluteus 5 2.39 红菇属 Russula 17 8.13 栓菌属 Trametes 5 2.39
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