That's why we have a clock in system.
这就是为什么系统中有一个时钟。
That's why we have a clock-in system.
所以我们才有打卡制度。
您的系统可能超时了。
System clock on both the CECs should be set to same date/time.
两个 CEC 上的系统时钟应该是相同的日期/时间。
External devices — For instance, Universal Serial Bus (USB) ports or the system clock.
外部设备——例如,通用串行总线(usb)端口或系统时钟。
The default time, which is retrieved from the system clock of the machine the code is running on, is used most of the time.
默认时间,即从运行代码的机器的系统时钟检索到的时间,在大部分情况下被使用。
Check your clock; more importantly, look at the dates of files in your build tree, and other files on your system, and your clock.
检查系统时钟;更重要的是,要检查编译树中文件的日期、系统中其他文件的日期以及系统的时钟。
For example, you might want a system clock to always return the same time so that your test has repeatable results that you can verify.
例如,您可能希望系统时钟总是返回相同的时间以便测试能够有可验证的重复结果。
Clock synchronization services work by changing the system clock on the client systems to match the clock on the server system.
时钟同步服务通过把客户机系统上的系统时钟改成与服务器系统相匹配的时钟而起作用。
If your client's system clock is not almost exactly synchronized with your server's system clock, you will experience peculiar results in direct proportion to the size of the discrepancy between them.
如果您的客户机系统时钟不是完全与服务器系统时钟同步的话,您就会得到与两个时钟的时间差大小成正比的特殊结果。
Second, if the system clock is adjusted backwards, GENERATE_UNIQUE will return duplicate values.
第二,一旦系统时钟需要向后调整,那么GENERATE_UNIQUE将可能返回重复的值。
By reading this flag, the time client knows that it is no longer connected to the network and chooses to calculate the site times from the system clock.
通过读取这个标志,timeclient就会知道它已经不再连接到网络并选择从系统时钟计算站点时间。
MyObservable starts a thread that reads the system clock.
MyObservable启动一个线程,读取系统时钟。
While it is running, it records the address of the instruction that is being executed every time a system-clock interrupt occurs.
当它运行时,它会记录每次系统时钟中断发生时正在执行的指令的地址。
TOTAL TICKS is the number of times that the system-clock interrupt occurred during the trace interval.
TOTALTICKS是追踪时间间隔过程中发生系统时钟中断的次数。
The system clock controls the speed of all operations within a computer.
系统时钟控制着计算机中所有操作的速度。
Also, programs that display the time dynamically by referencing the system clock might also display these historical time stamps incorrectly - check with your software provider for more details.
同时,通过引用系统时钟动态显示时间的程序也可能不正确地显示这些历史时间戳—有关更详细的信息,请咨询软件供应商。
If the system clock on the user's computer is ahead of the system clock on the server that contains her user profile, the server profile may not load.
如果用户电脑上的系统时钟快于含有她的用户配置文件的服务器的系统时钟,服务器的配置文件不被调用。
The accuracy is limited by the accuracy of the system clock.
其准确性受系统时钟准确性的限制。
Answer: Check the system clock on the user's computer.
答:检查用户电脑上的系统时钟。
What makes these filters special is that they are based on the system clock so my "last month" filter will always filter to the previous month when the filter is reapplied.
这些筛选选项的特殊之处就在于它们是以系统时间为基础的,所以当我们选取“上个月”时,筛选的总是筛选功能运行时的上个月。
It synchronizes your PC system clock to a network time server.
它同步您的PC系统时钟到了网络时间服务器。
It will update your system clock time, synchronizing it with atomic clocks through the Internet.
该软件将更新你的系统时间,通过因特网使用原子时钟同步你的系统时间。
Then it generates a report that lists how many "ticks" each of these units of code received (how many times a system-clock interrupt occurred when that particular unit of code was running).
然后,它生成一个报告,列出这些代码单元每个获得了多少个“节拍(tick)”(即当代码的特定单元正在运行时发生了多少次系统时钟中断)。
Can Tprof profile what code is running at particular events (other than system-clock interrupts)?
Tprof是否可以剖析发生特定事件时(除了系统时钟中断以外)什么代码在进行?
If so, you can solve this problem by synchronizing the users system clock with the servers clock.
如果这样,你可以通过把用户的系统时钟和服务器的时钟做同步来解决这个问题。
To ensure accuracy, the timer should check the system clock as needed, rather than try to keep track of accumulated time internally.
若要确保精确,计时器应根据需要检查系统时钟,而不是尝试在内部跟踪所积累的时间。
Based on the system clock and trigger input signals, using FPGA to generate trigger output signals in given working modes.
通过FPGA实现在一定系统时钟和触发信号作用下各种工作模式的触发信号的产生。
A binary tree routing topology is designed for propagating the system clock and trigger signal and the accurate timing and synchronization between sensors are provided by CPLD.
设计了二进制树型拓扑结构传播统一的系统时钟和触发信号,采用CPLD提供传感器间的精确时序和同步。
As for the high precision positioning of underwater targets, the GPS sonobuoy technique has two bottlenecks: high precision system clock synchronization and high accuracy time delay estimation.
为了实现水下载体高精度的定位,GPS声纳浮标需解决两个方面的技术难点:高精度的系统时钟同步和定位信号的高精度时延估计。
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