Unable to continue because of a hardware or system error, Sorry, but this error is unrecoverable.
无法继续,因为硬件或系统错误,很抱歉,但这个错误是不可恢复的。
Unable to continue because of a hardware or system error. Sorry, but this error is unrecoverable.
抱歉,不能继续,因为硬件或系统错误,但是,此错误是不能恢复的。
In this paper the design of hardware and software in this system are expounded in detail, the interference - resistant measures presented, the causes of error analysed.
本文详细阐述了整个系统的硬件和软件设计,介绍了相应的抗干扰措施,并对误差来源作了简要的分析。
The realization method of lined error compensation hardware system and the methods of advance its compensation ability by the reasonable selection swatch and by the system study were introduced.
并介绍了在线误差补偿硬件系统的实现方法,以及通过样本的合理选择和系统的学习来提高补偿系统的补偿能力。
Unable to continue because of a hardware or system error.
无法继续,因为硬件或系统错误。
In order to enhance the precision of the system, and to reduce synchronization error, this paper adopts hardware synchronization.
为了提高系统的精度,采用硬件同步以减少同步误差。
The hardware, software and error of the system ar analysed and its experimental result is also given.
文中对测试系统软、硬件及误差进行了分析,并给出实验结果。
In order to ensure that temperature and humidity measurement precision, the hardware circuit error analysis, put forward the system error of the method to improve.
为了保证温湿度测量精度,对硬件电路进行了误差分析,并且提出了系统误差的改善方法。
The principle of hardware and software on turning error online measuring system controlled by 8098 single-chip micro-computer for principal axis of lathe was discussed.
阐述了8098单片机对车床主轴回转误差在线检测的原理、硬件设计及软件原理。
In the thesis, we mainly describe the function, error test method, hardware circuit, software flow, coding message and measurement error analysis of the system.
本论文主要阐述了一种可远程传输数据的电能表校验系统的主要功能、误差检验方法、硬件电路、软件流程、短消息编码和测量误差分析。
The bits error ratio (BER) of the system is analyzed theoretically, and the probability to improve the performance by using the hardware-limit is evaluated.
对系统的误码性能进行了理论分析,并讨论了在系统中加入硬件限幅器以提高系统性能的可能性。
The experimentation results show that this REPON hardware system can provide a stable and reliable performance, e. g. the bit error rate of its physical fiber link is less than 10 -9.
通过硬件基本功能测试、物理层功能仿真验证以及模拟业务试验,证实了REPON系统可以稳定且可靠的运行,且其物理层光纤链路上的收发误码率在10-9以下。
The experimentation results show that this REPON hardware system can provide a stable and reliable performance, e. g. the bit error rate of its physical fiber link is less than 10 -9.
通过硬件基本功能测试、物理层功能仿真验证以及模拟业务试验,证实了REPON系统可以稳定且可靠的运行,且其物理层光纤链路上的收发误码率在10-9以下。
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