这些方面包括选择如何处理事件、调度、时钟同步、时间间隔计算、本地相关性和文化意义。
These aspects include choosing how to handle events, schedules, clock synchronization, interval calculations, local relevance, and cultural significance.
RTSJ 处理了几个有问题的地方,包括调度、内存管理、线程、同步、计时、时钟和异步事件处理。
The RTSJ addresses several problematic areas, including scheduling, memory management, threading, synchronization, time, clocks, and asynchronous event handling.
在每一时钟节拍,要制定调度决策的潜能。
At each tick, the potential for a scheduling decision is made.
将引入每个任务(调度实体)的时钟vruntime(wall_time/task_weight),并且将使用近似的平均时间初始化新任务的时钟。
A clock per task (scheduling entity), vruntime, will be introduced (wall_time/task_weight) and an approximated average initializes the clock of a new task.
基于前跳虚时钟(LFVC)算法,本文提出了适用于无线以太网(WLAN)环境的全分布式的调度算法WLFVC。
Based on LFVC (Leap Forward Virtual Clock), this paper proposes a scheme named WLFVC, which is a fully distributed wireless scheduling scheme for WLAN (wireless LAN).
首先针对网络控制系统分布式的特点,特别是类似于CAN总线的多主系统,由于没有单一的时钟提供同步机制,影响调度管理的同步。
First, aiming at the distribution of NCS, specially the multi-master system such as CAN, there is no unified network clock, so the scheduling and management are affected.
该文提出了用于多时钟域soc的TAM优化与测试调度算法,以减少多时钟域soc的测试时间。
This paper presents the TAM optimization and test scheduling algorithm for multi-clock SOC, and it aims at decreasing test time of multi-clock SOC.
本文提出了一种有效的方法时钟歪斜调度中心可以减少误差平方和增量分配的休闲裤。
This paper presents an effective approach for clock skew scheduling that can reduce the center error square and assign slacks incrementally.
在实际应用中,并不是每个时钟节拍都有任务调度,所以有很多时钟中断服务程序的工作是多余的,浪费了CPU资源。
In most practical application, context switch doesn't happen at some time tick, so sometime the execution of timer ISR is useless and wastes CPU time.
基于离散事件系统仿真原理,以事件调度法推进仿真时钟,建立这两种发货方式的生产—库存系统的仿真模型。
Based on the discrete system simulation principle and the Event-Scheduling approach, the production-inventory systems under these two delivery ways are modeled.
基于离散事件系统仿真原理,以事件调度法推进仿真时钟,建立这两种发货方式的生产—库存系统的仿真模型。
Based on the discrete system simulation principle and the Event-Scheduling approach, the production-inventory systems under these two delivery ways are modeled.
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