如果硬件时钟被设置为本地时间而非utc,可选中Settolocaltime复选框。
If the hardware clock is set to local time instead of UTC, select the set to local time checkbox.
Metronome中的GC工作是基于时间的,而对硬件时钟的任何更改都可能导致难于诊断的问题。
GC work in Metronome is time based, and any change to the hardware clock could cause hard-to-diagnose problems.
例如,在那些以前的日子中我发现早期的样例策略不允许系统更新硬件时钟(最后我提交了一个补丁以解决这一问题)。
For example, I found in those early days that the early sample policy didn't let the system update the hardware clock (I ended up submitting a patch to fix this).
使系统时间与Net workTimeProtocol (ntp)服务器同步然后让硬件时钟和系统时间同步就是一个这样的例子。
An example is synchronizing the system time to a Network time Protocol (NTP) server and then synchronizing the hardware clock to the system time.
其思想是按照外部时钟的步调在更短的时间内完成一项工作,即便要以更复杂的硬件和编程为代价也在所不惜。
The idea is to finish a job in a shorter time as measured by an external clock, even if at the cost of more hardware and programming complexity.
这个游戏在快速的硬件上不会有问题,但你会浪费不少贵重的时钟周期。
The game will have no problems on fast hardware, but you are wasting so many precious clock cycles.
游戏在快速的硬件下不会有问题,但就像第一个解决方案,你浪费了太多的时钟周期,这本来能提供更高的帧速率。
The game will have no problems on fast hardware, but like the first solution, you are wasting so many precious clock cycles that can be used for a higher framerate.
异步中断是由其他硬件设备产生的,可以在CPU时钟信号的任意时刻到来。
Asynchronous interrupts are generated by other hardware devices at arbitrary times with respect to the CPU clock signals.
我们知道,在硬件电路设计中时钟信号是最重要的信号之一。
We know that the hardware circuit design clock signal is the most important one of the signals.
简要介绍了实时时钟isl 1208的原理、特点、功能及应用,并给出了与单片机的硬件连接图及控制程序。
This article introduce the principle, the character, the function and the application of real time clock ISL1208 and then gives the hardware and software design.
讨论了TMS320C 5402芯片的时钟电路、电源电路、复位电路等基本硬件电路的设计方法,并给出了接线图。
The article discusses the design method of chip clock circuits, power circuits and complex Spaces circuit for the basic hardware of TMS320C5402 and gives the wiring plans.
系统硬件主要包括电源电路、复位电路、时钟电路等;
The hardware part of this system mainly include power circuit, reset circuit, and clock circuit.
系统的硬件部分主要包括了DSP微处理器的基本外围电路、非易失性存储、LED显示、时钟管理、键盘接口,以及SCI通信和CAN通信等单元电路。
The hardware of the monitoring system mainly consists of the DSP controller, nonvolatile memory, LED, clock management, keyboard interface, SCI communication units and CAN communication units.
我们知道,在硬件电路设计中时钟信号时非常重要的。
We know that the hardware circuit design clock signal is very important.
该文介绍了如何利用可编程控制器的日历时钟功能,对一灯饰控制系统进行自动控制,从软件、硬件两个方面介绍了具体实现的方法。
The paper presents a lighting decoration control system, in which clocking function of PLC is used and automatic timing control of lighting decoration system may be realized.
硬件电路设计主要包括中央处理单元电路、时钟电路、软件用汇编语言来实现,主要包括主程序、时光设置子程序等软件模块。
Hardware circuit design includes a central processing unit circuit, clock circuit, assembly language software to achieve, including the main program, subroutine, such as set-up time software modules.
本论文提出嵌入式ntp网络同步时钟源的设计方案,完成了整个系统的硬件和软件开发。
This thesis has proposed a designing schema of embedded network synchronization clock based on NTP, having done the entire development of hardware and software system.
特性:数码相机、游戏、综合音箱、图片查看器、触摸屏、视频回放、通讯录、文件夹的支持,升级硬件,世界时钟。
Features: Digital Camera, Games, Integrated Speakers, Photo Viewer, Touch Screen, Video Playback, Address Book, Folder Support, Upgradable Firmware, World Clock.
介绍了实现该平台的硬件及软件组成,重点描述了用于该平台的路由协议及时钟方式。
Both the hardware and software components of the platform are introduced, and the routing protocols and clock modes used in the platform are described in detail.
选用GN-80型GPS接收设备和单片微机进行电力系统状态变量同步采集终端的硬件设计,利用GPS的精确授时作为其同步时钟控制采样脉冲来实现同步采样。
This thesis selects model GN-80 GPS receiver and SCM to design the sampling device. The high accurate time service is used to synchronize the sample clock signal to realize synchronous sampling.
这种方法比反馈环法定时精度高,定时误差捕获快,并且不需要时钟源,不占用片内硬件资源,适合于全软件化设计要求。
Contrasted with the feedback loop this method is more accurate, the timing error is caught faster, the time resource is not necessary and it does not occupy resources of the hardware in DSP.
本论文的嵌入式硬件环境,包括CPU的外围时钟电路,复位电路,存储器单元,LCD模块,触摸屏,键盘,FLASH,SDRAM,网络接口等部分。
The embedded system in this thesis include CPU , memory part , LCD part, touching screen, keyboard, FLASH, SDRAM and internet interface and so on.
本设计基于单片机技术原理,以单片机芯片AT89C51作为核心控制器,通过硬件电路的制作以及软件程序的编制,设计制作出一个多功能数字时钟系统。
This text is mainly to introduce a method of making the multi-functional digital clock with Single-Chip Microcomputer AT89C51 as the center controller.
系统硬件部分包括GPS接收机、GPS时钟模块、脉冲峰值采集卡及工控机。
The hardware includes GPS receiver, pulse peak acquisition card, GPS clock module and industrial computer.
硬件实时时钟及相关的自动唤醒单元的总功耗低于1微安,开发人员可利用睡眠模式使节能效果达到最大化。
The hardware RTC and its associated automatic wake-up unit have combined current consumption below 1 microamp, allowing developers to use power-saving sleep modes to maximum effect.
系统硬件由数据采集、数据存储、数据传输、实时时钟、电源等模块组成。
Hardware in this system is made up by data acquisition module, data storage module, data transport module, real-time clock, power supply and so on.
系统硬件由数据采集、数据存储、数据传输、实时时钟、电源等模块组成。
Hardware in this system is made up by data acquisition module, data storage module, data transport module, real-time clock, power supply and so on.
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