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Utilization of departmental computing GRID system for development of an artificial intelligent tapping inspection method, tapping sound analysis

机译：利用部门计算GRID系统开发人工智能敲击检查方法，敲击声音分析

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Tapping Sound Analysis is a new NDE method, which determines the existence of subsurface defects by comparing the tapping sound of test structure and original healthy structure. The tapping sound of original healthy structure is named sound print of the structure and is obtained through high precision computation. Because many tapping points are required to obtain the exact sound print data, many times of tapping sound simulation are required. The simulation of tapping sound requires complicated numerical procedures. Departmental Computing GRID system was utilized to run numerical simulations. Three cluster systems and one PC-farm system comprise DCG system. Tapping sound simulations were launched and monitored through Globus and CONDOR. A total of 160 Tera floating-point (double-precision) operations was performed and the elapsed time was 41,880 sec. From the numerical experiments, Grid computing technology reduced the necessary time to make sound print database and made TSA a feasible and practical methodology.

机译：敲击声分析是一种新的NDE方法，它通过比较测试结构和原始健康结构的敲击声来确定表面缺陷的存在。原始健康结构的敲击声称为该结构的声纹，是通过高精度计算获得的。因为需要许多敲击点才能获得准确的声音打印数据，所以需要多次敲击声音模拟。敲击声的仿真需要复杂的数值过程。利用部门计算GRID系统进行数值模拟。 DCG系统由三个集群系统和一个PC农场系统组成。通过 Globus 和 CONDOR 启动并监听敲击声模拟。总共执行了160 Tera浮点（双精度）操作，经过时间为41,880 sec。通过数值实验，网格计算技术减少了制作声音打印数据库所需的时间，并使TSA成为可行且实用的方法。 展开▼

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《ACM/IEEE conference on Supercomputing》|2002年|P.1-17|共17页

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Seung Jo Kim; Joon-Seok Hwang; Chang Sung Lee; Sangsan Lee;
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中图分类计算技术、计算机技术;

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Utilization of departmental computing GRID system for development of an artificial intelligent tapping inspection method, tapping sound analysis

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