That means each idle agent can retain up to 8mb of its private memory.
这意味着每个闲置代理可以保留最多8MB的私有内存。
Conversely, when the usage of a virtual system is lower than the predefined threshold for a certain time, idle nodes are removed or memory is drawn back.
相反的,当虚拟系统的使用在某段时间内低于预定义的阈值,空闲的节点就被删除、或者内存就被收回。
If you have 100 idle agents, then 800mb of memory is retained by these agents, so they eat up RAM quite quickly.
如果有100个闲置代理,那么这些代理将保留800MB的内存,因此它们很快就会耗尽ram。
Therefore the designers of operating systems found ways to rapidly switch contexts, partition the memory resources, and use the idle cycles so multiple programs could run, seemingly simultaneously.
因此,操作系统的设计人员找到快速切换上下文、划分内存资源,并且使用空闲周期的方法,这样多个程序就可以表面上同时运行了。
Can we redistribute the "idle" memory and deploy it somewhere else where it is really needed?
是否可以重新分配“空闲”内存,把内存部署到确实需要内存的其他地方?
If there are many idle agents and all of them retain their private memory, it is possible that the system runs out of memory.
如果有很多的闲置代理,并且所有这些闲置代理都保留了它们的私有内存,那么就可能导致系统耗尽内存。
Basically, this shifts memory dynamically from idle LPARs to active ones.
基本而言,这将内存从空闲lpar动态转移到活动LPAR。
Currently, the servers found in most data centres continue to slurp energy even when their processors are idle because the server memory cannot be turned off without affecting performance.
现在,大多数据中心的服务器都在时刻“嗡嗡”着,即使它们的进程都是空闲的,这是因为这些服务器内存在没有性能保障时是不能被切断的。
To avoid this, DB2 has a registry variable which limits the amount of memory each idle agent can retain.
为了避免这种情况,DB2 使用一个注册表变量来限制每个闲置代理可以保留的内存量。
Agent private memory may be paged out if the agent has been idle for a long time.
如果代理闲置了较长的一段时间,则其代理私有内存将被调出。
LPAR1 was relatively idle most of the time and, based on its working set, did not require all 4gb of memory.
LPAR1在大多数时候相当空闲,根据它的工作集,它并不需要4GB的内存。
Thus we can utilize the idle time of IO course to compute the excitation data in order to improve the response speed of software and reduce the consumption of memory.
这样就可以利用发送与采集过程的等待时间计算刺激数据,提高了软件的反应速度,减少了内存消耗。
The so-called "best" means the operation of each memory allocation, always meet requirements, and also the smallest area allocated to idle operations, to avoid "a waste of talent.
最佳适应算法是动态内存分区分配算法的一种。所谓“最佳”是指每次为作业分配内存时,总是把能满足要求、又是最小的空闲分区分配给作业,避免“大材小用”。
Clear the system Event Log hourly when the phone is idle to free up application memory.
清除系统事件日志每小时当手机闲置释放应用程序的内存。
Clear the system Event Log hourly when the phone is idle to free up application memory.
清除系统事件日志每小时当手机闲置释放应用程序的内存。
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