静态优先级调度在实时系统中得到了广泛应用。
Static priority scheduling is widely used in real-time systems.
Linux核心可以根据静态控制(如线程优先级级别)和系统中执行的线程的某些动态条件下来执行线程调度。
The Linux kernel performs thread scheduling based on static controls, such as thread priority levels, and on certain dynamic conditions of the threads executing in the system.
本文详细论述了应用于静态优先级实时系统的抢占阈值调度算法。
In this paper, we describe the preemption threshold scheduling algorithm used for fixed priority embedded real-time systems.
任务调度模块采用静态优先级抢占调度机制来提高实时性能,能同时调度16个任务。
Task scheduler adopts the strategy of fixed-priority preemption to improve the real-time performance, and it can schedule 16 tasks at one time.
论文提出静态优先级实时调度性能评估方法,全面考虑了接收机任务执行时间、优先级、周期和相对截止时间的定量分析。
The fixed priority scheduling performance evaluation method is proposed, where the quantitative analyses of task execution time, priority, period and deadline are considered.
论文提出静态优先级实时调度性能评估方法,全面考虑了接收机任务执行时间、优先级、周期和相对截止时间的定量分析。
The fixed priority scheduling performance evaluation method is proposed, where the quantitative analyses of task execution time, priority, period and deadline are considered.
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