scheduler task
英 [ˈʃɛdjuːlə tɑːsk]
美 [ˈskɛdʒʊlər tæsk]
网络 调度任务; 调度程序任务
双语例句
- But a CPU can also be considered a resource to which a scheduler can temporarily allocate a task ( in quantities called slices of time).
但是CPU也可以认为是一个资源,调度器可以临时分配一个任务在上面执行(单位是时间片)。 - The generic scheduler finally provides the processor to this task.
通用调度器最后为此任务提供处理器。 - You can modify these tasks and set up new tasks using the Task Scheduler Wizard provided by the Task Scheduler.
可以使用TaskScheduler提供的TaskSchedulerWizard修改这些任务和设置新任务。 - The CFS scheduler module does fairness testing before actually preempting the running task.
在实际抢占正在运行的任务之前,CFS调度程序模块将执行公平性测试。 - There are two types of scheduler tasks, Task and Sensor.
有两种调度器任务,任务和传感器。 - The Completely Fair Scheduler tries to run the task with the "gravest need" for CPU time; this helps to assure that every process gets its fair share of CPU.
完全公平调度程序(CFS)试图按照对CPU时间的“最大需求(gravestneed)”运行任务;这有助于确保每个进程可以获得对CPU的公平共享。 - In this type of scheduler, the time it takes to schedule a task is a function of the number of tasks in the system.
在这种调度器中,调度任务所花费的时间是一个系统中任务个数的函数。 - The job of the scheduler is simple: choose the task on the highest priority list to execute.
调度器的工作非常简单:它在优先级最高的队列中选择一个任务来执行。 - Finally, preemption wasn't possible in the earlier scheduler; this meant that a lower priority task could execute while a higher priority task waited for it to complete.
最后,在早期的内核中,抢占是不可能的;这意味着如果有一个低优先级的任务在执行,高优先级的任务只能等待它完成。 - For example, each scheduler provides a way to add a task to be scheduled, pull the next task to be run, yield to the scheduler, and so on.
例如,每个调度器提供一种方式,添加要调度的任务、调出要运行的下一个任务、提供给调度器等等。 - The1.2 Linux scheduler used a circular queue for runnable task management that operated with a round-robin scheduling policy.
Linux调度器使用了环形队列用于可运行的任务管理,使用循环调度策略。 - When the scheduler fires the life cycle task, it calls the process() method of the life cycle bean.
当调度程序执行该生命周期任务时,它调用生命周期Bean的process()方法。 - The last screen of the Task Scheduler Wizard shows the summary of the new task, requesting confirmation of values.
TaskSchedulerWizard的最后一个屏幕显示新任务的设置汇总,要求用户确认这些设置值。 - The idle task can be hard-coded into the scheduler, or it can be implemented as a separate task with the lowest possible priority.
空闲任务可以被硬编码在调度中,也可以把实现为一个具有最低优先权的独立任务。 - No account information could be found in the task scheduler security database for the task indicated.
在任务计划程序安全数据库中找不到指示的任务的帐户信息。 - The controlling site is made up of function modules such as the workflow manager, the site parser and the model partitioner, and the executing site consists of the task scheduler, the task manager, etc.
总控站点包括工作流管理器、站点解析服务、模型分割服务等功能组件,执行站点包括任务管理器、任务调度器等功能组件。 - The global scheduler, making up of task collector, task scheduler, task dispatcher, information collector and database module, can allocate and manage tasks and resource in an efficient way.
全局调度器通过作业收集器、作业调度器、作业分派器、信息采集器和数据库模块对网格中的资源和作业进行了有效的管理和分配。 - The system includes testing scripts generator, test task definition module, test task scheduler, test task running platform, accounting and report form module.
系统包括测试脚本生成器、测试任务定义模块、测试任务调度器、测试任务运行台、统计报表模块和人员管理模块。 - This paper describes scheduling mechanism in embedded μ C/ OS-ⅱ and gives difference between scheduler in task and scheduler in interrupt. So efficiency of preemptive scheduling is better.
本文描述了嵌入式操作系统μC/OS-Ⅱ的调度机制,通过任务级调度和中断级调度不同的比较,看出该系统的抢占式调度策略的高效性。 - The low level scheduler executes the resource allocation and task scheduling.
而下层次级调度器负责将分发来的任务进行实际的资源分配及调度工作。 - Introduced the basic function of μ C/ OS-ⅱ and the architecture of the system kernel, analyzed the theory of the multitasking, task scheduler, inner task communication, time management, and memory management.
论述了嵌入式实时操作系统μC/OS-Ⅱ的基本功能,分析了内核结构,剖析了多任务处理、任务调度、任务间通信、时间管理和内存管理等核心模块的工作原理。 - In order to reduce the response time,μ C/ OS-ⅱ kernel with preemptive scheduler guarantees that the task of highest priority can access the CPU first as soon as it is ready.
μC/OS-Ⅱ内核是采用占先式调度方式的实时内核,保证最高优先级任务一旦进入就绪态,就能立刻得到CPU的使用权,减少系统响应时间,从而保证系统实时性。 - Linux ′ s kernel source code, its architecture, process scheduler, task queue, synchronization, system timer are analyzed in great detail.
对Linux的内核源代码进行了分析,且着重于其核心服务机制的组织结构、进程调度、任务队列机制、同步机制、系统定时机制的剖析。 - In the workflow engine module, processes schedule is implemented by co-operations of task scheduler and XML parser, task manager, resource manager, and workflow instance manager to make process circulate properly according to the order in advance.
其中工作流引擎主要包括任务调度器,XML解析器,任务管理器,资源管理器以及过程实例管理器来协调完成流程的调度,保证流程按事先的流程顺序正确流转。 - Task scheduler is in charge of task scheduling, data scheduler is responsible for data file selecting and scheduling, data scheduling assists task scheduling and executing.
任务调度器负责任务的调度,数据调度器负责数据文件的选择与调度,数据调度辅助任务的调度与执行。 - And the scheduler also classifies the invoking flows of task based on the features of scientific application program and data flow graph ( DFG) programming model, which obviously reduces the invoking overhead of task.
调度器的设计根据科学计算应用程序的特点,结合数据流图编程模型,采用了分类的调用策略来降低任务的调用开销。 - The key issues in designing a semi-partitioned scheduler, such as task splitting and task migration, are analyzed.
本文首先分析了实现该调度器的关键技术,包括任务切割、任务迁移等。 - Every sub scheduler deal with tasks in the same level following certain rules, while main scheduler deal with the current task of all the sub schedulers according the priority difference.
每个子调度器负责按照一定的规则对同一个优先级别的任务进行调度,而主调度器则对每个子调度器的当前任务按照其优先次序进行调度。 - To detail the failure detection of the system, detecting module is integrated into the scheduling system and the availability judgment of scheduler is conducted at the task level.
为了细化系统的失效检测,将检测模块集成到调度系统中,在任务级实现对调度器可用性判断。 - The second implementation has a novel dynamic resource level scheduler under which task groups can join and leave dynamically. Several experiments are conducted to measure system performance in various aspects such as interrupt request response time.
第二个实现采用新颖的动态资源调度,在该调度下,各个任务组之间可以动态联合和分离。