作者：李皓琰, 韩明超, 臧战胜, 张朋波

作者单位：中国信息通信研究院泰尔系统实验室, 河北 保定 071000

关键词：服务器;抗震测试;结构性能;技术性能

摘要：

为研究服务器设备的抗震性能，保障地震灾害中信息通信网络业务和数据的安全可靠性，该文构建一种服务器抗震技术性能检测和评估方法。包括震前震后服务器的外观和硬件检查、状态监控功能测试、运行可靠支持功能检查和设备性能指标检查。并基于地震模拟振动台，依据电信设备抗地震性能检测规范，通过抗震试验首次对某型号服务器的设备频率、设备结构、外观及硬件、基本功能、系统性能等进行抗震性能测试和方法验证。通过对抗震试验结果的分析，验证服务器抗震技术性能检测和评估方法的可行性和科学性，并为后续服务器抗震性能研究和标准制定提供基础数据和参考依据。

Anti-seismic performance test and analysis of the server
LI Haoyan, HAN Mingchao, ZANG Zhansheng, ZHANG Pengbo
CTTL-systems, China Academy of Information and Communications Technology, Baoding 071000, China
Abstract: In order to study the anti-seismic performance of server equipment to guarantee the safety and reliability of the communication network service and data during the earthquake, the anti-seismic technical performance test and evaluation method including the appearance and hardware check, condition monitoring function test, reliable operation support function test and performance test of server before and after seismic test has been established. And the seismic test based on the shaker table has been conducted according to specification for seismic test of telecommunications equipment to test the frequency, the structure, the appearance and hardware, the basic function and system performance of the server to analyze the anti-seismic performance for the first time. Through the analysis of the test results, the feasibility and scientificity of the anti-seismic technical performance test and evaluation method has been verified which provides basic data and reference to the following research and standard establishment.
Keywords: server;seismic test;structure performance;technical performance
2019, 45(8):50-54,66  收稿日期: 2018-06-03;收到修改稿日期: 2018-08-20
基金项目: 通信行业标准《服务器和网关设备抗地震性能检测规范》项目（工信厅科[2017]70号）
作者简介: 李皓琰(1985-),男,河北保定市人,工程师,硕士,主要从事通信设备抗震检测和标准研究
参考文献
[1] 计算机通用规范第3部分:服务器:GB/T 9813.3-2017[S].北京:中国质检出版社, 2017.
[2] 韩明超,李皓琰. NB-IoT基站抗地震性能测试与研究[J].电信技术, 2018(3):7-9
[3] NIWA H, FUKUI H, SASAKI Y, et al. Seismic evaluation of magnetic disk drives[J]. Transactions of the Japan Society of Mechanical Engineers (Part C), 1996, 62(11):4161-4167
[4] 电信设备抗地震性能检测规范:YD 5083-2005[S].北京:北京邮电大学出版社, 2006.
[5] Physical protection, telcordia technologies generic requirements:GR-63-CORE Issue4[S]. New Jersey:Telcordia Technologies, Inc, 2012.
[6] Network equipment-earthquake resistance:ATIS-0600329.2014[S]. Washington DC:Alliance for Telecommunications Industry Solutions, 2014.
[7] Environmental engineering (EE); environmental conditions and environmental tests for telecommunications equipment; part2-3:Specification of environmental tests; Stationary use at weatherprotected locations:ETSI EN 300019-2-3 V2.2.2[S]. European Telecommunications Standards Institute, 2003.
[8] Earthquake resistance test specifications for communications equipment[S]. Japan:NTT DOCOMO, INC, 2018.
[9] Environmental testing part3:guidance seismic test methods for equipments:IEC 68-3-3[S]. International Electrotechnical Commission, 1991.
[10] Mechanical structures for electronic equipment-Tests for IEC 60917 and 60297-Part 2:Seismic tests for cabinets and racks:IEC 61587-2[S]. International Electrotechnical Commission, 2011.
[11] BurnInTest for Windows[EB/OL]. Sydney:PassMark Software Pty Ltd, 2015[2018-05-21].https://www.passmark.com.
[12] Iometer user's guide[EB/OL]. California:Intel Corporation, 2003[2018-05-25].http://www.iometer.org.