Social media and other digital distractions don’t interrupt us if we close them and learn to pour ourselves completely into the present task.
如果我们关掉那些社交网络和其它令人分心的数字设备之后,它们就不会打扰我们了,我们就可以全身贯注于眼前的任务。
The time between the arrival of the interrupt and dispatching of the required task (assuming it's the highest-priority task to dispatch) is called the response time.
中断到达与分发必需任务之间的时间(假设分配的是优先级最高的任务)称为响应时间。
It may not be desirable even to interrupt the process while in this state since it may be in the middle of completing some important task.
中断处于这种状态的进程是不合适的,因为它可能正在完成某些重要的任务。
If the task were to swallow the interrupt request, the worker thread might not learn that an interrupt was requested, which could delay the application or service shutdown.
如果任务生吞中断请求,则worker线程将不知道有一个被请求的中断,从而耽误应用程序或服务的关闭。
Just because a task is cancelable does not mean it needs to respond to an interrupt request immediately.
仅仅因为一个任务是可取消的,并不意味着需要立即对中断请求作出响应。
This task is accomplished by calling interrupt() to "reinterrupt" the current thread, as shown in Listing 3.
该任务可以通过调用interrupt()以 “重新中断”当前线程来完成,如清单3 所示。
At last, in the section of software design, startup code programming, operating system choosing and transplanting, task design, drivers design and interrupt service routine design had been discussed.
最后,在软件设计部分探讨了启动代码编写、操作系统的选择和移植、任务规划和设计、驱动程序设计以及中断服务程序设计。
On software, we take full advantage of the low power modes of the MCU to finish the task in ISR (interrupt service routine), so, the power of system rest with the ISR executive time.
在软件设计上,充分利用所选单片机的低功耗模式,让检测任务在中断服务程序中完成,使系统的功耗主要取决于中断服务程序执行的时间。
Cannot process at interrupt level. Deferring request to system task level.
无法在中断级进行处理。将请求延缓给系统任务级。
This paper describes the design of a real-time multitask monitoring system, and more on the kernel module RTMMON in: task control, resource management, interrupt process and communication.
本文介绍了实时多任务监控系统的设计思想,着重阐述了RTMMON的核心模块:任务控制部、资源控制部、中断控制部及通信控制部的设计。
Furthermore, the technologies are discussed thoroughly, including task management, the synchronization and communication between interrupt and task, the storage management and interrupt management.
涉及到的技术主要包括:任务管理,任务及中断的同步与通信机制,存储器管理和中断管理。
Introduce the kernel, memory management and partition, allocation strategy, multi-task scheduling and how to communicate by semaphore and message handling as well as interrupt management.
介绍了该操作系统的内核、存储器管理和分区、分配策略、多任务调度及任务间通过信号量和消息处理进行通信的机制、中断管理等。
The techniques, such as time interrupt, TSR, inlaying assembly and multi-task discussed in this paper are of common use, and the corresponding program is very easy to transplant.
本文所讨论的时间中断技术、TSR技术、嵌入汇编技术和多任务技术具有一定通用性,其程序有很好的移植性。
But this does not mean that this method is optimal, and it is consumed in the task switching and interrupt time off to balance, so UCOS-III also supports the use of off interrupt method!
但这并不意味着这种方法就是最优了,它是在任务切换的消耗和关中断的时间来平衡的,所以ucos - III也支持使用关中断的方法!
The kernel of OS, including task management, conformance class, event mechanism, scheduling policy, interrupt processing, resource management and alarms, is described.
本文着重描述了操作系统的内核,包括任务管理机制、一致类、事件机制、调度机 制、中断管理、资源管理机制和报警器机制。
The techniques, such as time interrupt, TSR, inlaying assembly and multi-task discussed in this paper are of common use, a...
本文所讨论的时间中断技术、TSR技术、嵌入汇编技术和多任务技术具有一定通用性,其程序有很好的移植性。
It can complete tillage work at a time, reduce work times, save consumption and time, can complete produce task in time in summer harvest and seed, don't interrupt agricutural season.
能够一次完成耕耙作业,减少了作业次数,节约了能耗和时间,在夏收夏种农忙可以及时完成生产任务,不误农时。
It can complete tillage work at a time, reduce work times, save consumption and time, can complete produce task in time in summer harvest and seed, don't interrupt agricutural season.
能够一次完成耕耙作业,减少了作业次数,节约了能耗和时间,在夏收夏种农忙可以及时完成生产任务,不误农时。
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