介绍SCTP拥塞控制机制,并在SCTP关联内引入基于排队延迟的FAST拥塞算法。
Narrate SCTP congestion control mechanism, and introduce FAST, a delay-based congestion Algorithm, in the SCTP association.
此外,还分析排队延迟和网络容量的相互制约关系,并给出了在延迟限制条件下的网络容量。
In addition, the relation between queuing delay and capacity of the networks was discussed, and then the capacity based on the restriction of delay was given.
然后用M/D/1排队模型对每个节点的MAC层队列建模,分析了MAC层队列的平均排队延迟。
We also analyzed the average queue delay of MAC layer by modeling the interface queue of each node with M/D/1 model.
当移动主机位置改变时,数据流的路由改变了,那么分组延迟可能会改变,因为新的路由上的路由器会获得不同的路径长度和不同的排队延迟。
When mobile host changes its position, the route of the flow changes, which may causes the change of packet delay as routers on the new route may gain different path length and queuing delay.
如果您向主机发送多个请求,只有两个请求会(同时)发出,其他请求会排队,这会导致比一般情况下更长的延迟。
If you make several requests to your host, only two of them will go out (in parallel), and the others will be queued for even longer-than-usual delays.
不过,对于上述的“可增长线程池”,此解决方案并不是十全十美:在AIO工具中排队会带来额外的开销和延迟。
However, as in the case of "growable thread pools" above, this solution is not perfect: queuing in the AIO facility introduces additional overhead and latency.
微线程提供低延迟机制,该方式简单而直接,而工作队列提供复杂的API来允许对多个任务项目进行排队。
Tasklets provide a low-latency mechanism that is simple and straightforward, while work queues provide a flexible API that permits queuing of multiple work items.
AlarmManager提供可延迟、不可延迟、已延迟以及未排队的警报的列表。
Alarm Manager provides a list of the deferrable, non-deferrable, deferred, and unqueued alarms.
AlarmManager提供可延迟、不可延迟、已延迟以及未排队的警报的列表。
Alarm Manager provides a list of the deferrable, non-deferrable, deferred, and unqueued alarms.
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