任务调度是操作系统设计的一个重要方面,从桌面操作系统调度器到实时调度器和嵌入式操作系统调度器。
Task scheduling is an important aspect to operating system design, from desktop operating system schedulers to real-time schedulers and embedded operating system schedulers.
该调度器据说在NUMA系统以及移动设备上具有更好的性能,并且被引入了Android操作系统的一款衍生产品中。
The scheduler was reported to have better performance on NUMA systems as well as mobile devices and was introduced into a derivative of the Android operating system.
分析了在C/OS-II操作系统的调度下,传感器节点利用GPS模块进行相对定位的流程,并对网络状态的显示界面作了相应介绍。
The process of relative positioning using the GPS module, under the schedule of C/OS-II operating system, is analyzed, with a brief introduction to the display interface of the network status.
为操作系统的教学和辅导提供了有益帮助,加深了对处理器调度理论的进一步理解。
In order to the operating system teaching and counselling has provided the beneficial help, deepened to the processor scheduling theory further understanding.
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。
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.
于任何一个多任务操作系统,处理器调度是最重要,如果不是最重要的话,的一个组件。
The process scheduler is a highly important, if not the most important, component to every single multitasking operating system.
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 kernel of OS, including task management, conformance class, event mechanism, scheduling policy, interrupt processing, resource management and alarms, is described.
本文首先介绍了嵌入式微处理器和嵌入式实时操作系统,给出了基于单处理器的多任务调度方案。
Firstly, the embedded microprocessor and embedded Real Time Operating System are described, and the multi-task scheduling solution based on single-processor is given.
本文首先介绍了嵌入式微处理器和嵌入式实时操作系统,给出了基于单处理器的多任务调度方案。
Firstly, the embedded microprocessor and embedded Real Time Operating System are described, and the multi-task scheduling solution based on single-processor is given.
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