通过性能分析和比较,该算法具有较小的切换延迟。
Through qualitative analysis and comparison, the algorithm shows smaller handoff delay.
移动IP切换存在切换延迟大,数据包易丢失的问题。
There are large handoff latency and the packet being easier to lose on mobile IP handoff.
这些改进方案虽然改善了切换延迟问题,但它们在路由优化策略上还不尽如人意。
Even if they are not entirely successful on Route optimization, these schemes make an improvement on Handover delay.
切换延迟过大的问题对于某些业务(如文件传送)来说影响并不大,但是对实时和TCP延时敏感的业务影响是很大的。
The problem of excessive switching delays do not have a great influence on some operations (such as file transfer), but for real-time and TCP latency sensitive operations the impact is tremendous.
在移动IP和RSVP相互集成的方案中,为减少RSVP路径切换延迟,降低端端路径代价,公共路由器的选择是一个关键。
Among the schemes of mobile IP and RSVP integration, common router's computation is the key to reduce RSVP path handoff delay and end-to-end cost.
由此造成的上下文切换相对于锁保护的少数几条指令来说,会造成相当大的延迟。
The resulting context switches can cause a significant delay relative to the few instructions protected by the lock.
这样就能够避免网络延迟、进程间通信的开销以及操作系统中的上下文切换,从而进一步提高速度。
This avoids network latency and the overhead of inter-process communication, as well as context switching in the operating system, further contributing to extreme speed.
主屏的切换有一点延迟。
但是,在执行上下文切换时,虽然现代操作系统表现很“出色”,却并非“完美无缺”,因为进程在每次进行上下文切换时,它都将停止运行——这将导致吞吐量出现延迟(和性能下降)。
However, "excellent" in this context is not "perfect," since each time a process is context-switched it stops operating — which then results in throughput delays (and performance degradation).
但是,在执行上下文切换时,虽然现代操作系统表现很“出色”,却并非“完美无缺”,因为进程在每次进行上下文切换时,它都将停止运行——这将导致吞吐量出现延迟(和性能下降)。
However, "excellent" in this context is not "perfect," since each time a process is context-switched it stops operating — which then results in throughput delays (and performance degradation).
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