hardware fault中文是什么意思

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中文翻译
造句

硬件故障

hardware 〔集合词〕 1.五金器具；金属制品。 2.( ...
fault n. 1.过失，过错；罪过，责任。 2.缺点，缺陷，瑕疵 ...
hardware-implemented fault tolerance 硬件实现的容错
hardware 〔集合词〕 1.五金器具；金属制品。 2.(计算机的)硬件；(电子仪器的)零件，部件；(飞弹的)构件；机器；计算机。 3.电化教学设备〔指录音机、电唱机、闭路电视等〕。 4.(军队或警察的)武器装备；〔英俚〕重武器。
hardware hardware 五金用品
at fault 感到困惑, 有故障; 有错; 有过失; 有毛病; 罪有应得
fault n. 1.过失，过错；罪过，责任。 2.缺点，缺陷，瑕疵。 3.(猎狗的)失去嗅迹。 4.【电学】故障，误差；漏电；【地质学；地理学】断层。 5.【网球】发球出界；犯规。 Faults are thick where love is thin. 〔谚语〕一朝情义淡，样样不顺眼。 fault detection 【机械工程】探伤。 The fault is his own. 这是他自己的错。 a grave fault in a theory 理论上的重大缺陷。 a fault in the machine 机械故障。 image fault 【物理学】像差，影像失真。 numerical faults 数值误差。 a fault on the right side 因祸得福。 be at fault 1. (猎犬追捕猎物等时)失去嗅迹，踌躇不前；不知所措，正在为难。 2. 出毛病，有故障。 3. ＝ in fault (My memory is at fault . 我想不起来了)。 find fault in 看出…缺点。 find fault with 找…的岔子。 have no fault to find with 无错可寻。 hit off a fault (猎狗)闻出(曾一度错失的)嗅迹。 in fault 有过错，有责任 (Who is in fault 是谁的不是？)。 to a fault 过度，极端 (He is kind to a fault. 他过分老实)。 whip a fault out of sb. 鞭打某人使之改过。 with all faults 不保证商品没有缺点。 without fault 〔古语〕无误，确实。 vi. 1.【地质学；地理学】产生断层；有断层余迹。 2.发球出界；犯规。 3.〔方言〕责备，挑剔。 4.〔古语〕犯错误，做错。 vt. 1.找…的岔子，挑剔；〔方言〕责备。 2.【地质学；地理学】使产生断层。 3.把…做错。 He faulted my speech in two ways. 他认为我的讲话有两点不妥。 fault one's performance 表演发生失误。
in fault 有过错
no fault 无过失
to a fault 过分地
abm hardware 反弹道导弹系统设施
accessory hardware 附属硬件
adapter hardware 适配器硬件
adaptive hardware 自适应硬件
add-on hardware 添加硬件
aerospace hardware 航空航天技术装备制品
airdrop hardware 空投物资
american hardware 美国金属器具公司
analog hardware 模拟硬件
architectural hardware 建筑五金; 建筑小五金
assembler hardware 硬件组合程序
audio hardware 音频硬件
autopilot hardware 真实自动驾驶仪
avionics hardware 机上真实电子设备
body hardware 车身金属构件; 弹体构件

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80410a0b - internal psp error , hardware fault . send back to be replaced / fixed
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Finally , by joint test , hardware faults are detected and weeded out , the correctness of control rule and the reliability of control system are validated
最后,经过整机联调,发现并排查了硬件系统存在的问题,验证了控制规律的有效性和控制系统的可靠性。
This thesis introduces the conception of the system reliability , and analyzes some basic techniques for system reliability systematically , concludes the factors that influence the fault - tolerant real - time system : on the one hand , most of the fault - tolerance systems utilizes the hardware fault - tolerant technique , which improves the system reliability in a certain extent . however , this approach can only solve hardware error , and is helpless to software error . on the other hand , the real - time computing systems are designed decoupling between hardware and software , which is not beneficial for reliability design , especially for the tolerance design of software
本文首先介绍了系统可靠性的基本概念;详细分析了基本的可靠性保障技术,特别是软件容错和硬件容错的基本技术;归纳了制约容错技术在实时系统中的应用的两个核心问题:一是大多数容错系统以硬件容错为主,对于软件错误无能为力;二是实时计算机系统设计中软硬件耦合度低的特点不利于系统可靠性设计,特别是软件容错设计;导出了现代错误容忍设计急待解决的关键问题:确保硬件忍错,强化软件容错,在系统级整合软、硬件容错。
The traditional fire alarm systems are composed of a controller and detectors , and always transmit signals in the way of wireline transmission . however , the problems of long construction period , high rate of hardware fault and high cost of transmission line puzzle the administrators of fire control . but wireless communication in place of wireline communication can solve these problems effectively
传统的集散式火灾自动报警系统由火灾报警控制器及火灾探测装置组成,其信号传输方面多采用有线传输,但是这种形式下的火灾自动报警系统的施工工期长、硬件故障率高、传输线成本高等问题常常困扰着消防管理人员,而以无线通信代替有线通信却能够很好地解决这些问题。
Since the enterprises all over the world think much of the combination of competition and cooperation , there is more and more request for the system high availability . in the past , the high availability needs the system provide the continuable service and dispose the system hardware fault in time
在过去，高可用性一般就是需要系统能够提供不间断的服务，系统能够及时的处理硬件故障就可以了。但是，由于全球经济的不断发展，企业对系统的高可用提出了更高的要求。
Since the enterprises all over the world think much of the combination of competition and cooperation , there is more and more request for the system high availability . in the past , the high availability needs the system provide the continuable service and dispose the system hardware fault in time
在过去，高可用性一般就是需要系统能够提供不间断的服务，系统能够及时的处理硬件故障就可以了。但是，由于全球经济的不断发展和竞争的加剧，企业对系统的高可用性提出了更高的要求。