路由器状态为我们提供了从任意激活路由开始向上或向下遍历路由树的一种方式,以获得关于父、子、兄弟路由的信息。
Each ActivatedRoute in the RouterState provides methods to traverse up and down the route tree to get information we may need from parent, child and sibling routes.
路由器状态为我们提供了从任意激活路由开始向上或向下遍历路由树的一种方式,以获得关于父、子、兄弟路由的信息。
Each ActivatedRoute in the RouterState provides methods to traverse up and down the route tree to get information from parent, child and sibling routes.
路由器可以创建或维护一个包含可用路由及其状态的路由表,同时根据这些信息,利用距离和成本算法为数据包选择最佳路由。
A router may create or maintain a table of the available routes and their conditions and use this information along with distance and cost algorithms to determine the best route for a given packet.
工作流模型的一个中央节点控制那些参与了分布式状态机和两个路由器模型的多个节点;整个系统是使用DEBA来实现的。
A workflow model central node controls the nodes participating in a distributed state machine and two router models; the entire system is implemented with DEBA.
网络接口、路由器和桥接、服务器计算机、货架系统、刀片服务器可能被定期轮询,返回状态信息以响应SNMPGet请求。
Network interfaces, routers and bridges, server computers, rack systems, and blades may be regularly polled to return status information in response to SNMP Get requests.
按需路由器(odr, on - Demand Router)是OperationsOptimization的组成部分,可以提供面向目标的执行环境,动态地提供服务器资源和运行状态管理。
On-Demand Router (ODR), part of Operations Optimization, provides a goals-oriented execution environment, dynamic provisioning of server resources, and health management.
路由器的当前状态包含了一棵由程序中激活的路由构成的树。它包含一些用于遍历路由树的快捷方法。
The current state of the router including a tree of the currently activated routes in our application along convenience methods for traversing the route tree.
对http路由器url执行Ping操作,以确定在服务器和应用程序启动后Web服务是否处于活动状态。
Ping the HTTP router URL to see if the Web service is active after the server and the application are started.
使用SNMP协议网络管理员能够从远程捕获和监控网络系统设备(如网络交换机和路由器等)的工作情况和状态。
With SNMP protocol, network manager can remotely capture and monitor the operation condition and states of network system units (such as network exchanger and router, etc).
在路由器中根据网络拥塞状态和数据流到达速率,采用基于速率的随机早期检测机制进行缓存管理。
On the basis of the estimated packet arrival rate and the status of network congestion in router, the buffer was managed using rate-based random early detection(RED).
算法还使路由器避免了维护每个流的状态信息以及对单个流进行的复杂的队列管理和调度。
With this algorithm, the router can avoid maintaining per flow state and avoid complicated per flow buffering and scheduling.
常见的带宽分配算法如wfq、DRR等分组调度算法存在着诸如计算复杂度高、需在路由器进行每流状态的管理等不足。
General bandwidth allocation algorithms, such as WFQ and DRR, have the shortcomings of high complexity and requirement for the router to manage per-flow state.
在传统组播中,组播组数据由一棵覆盖所有组成员的组播树进行转发,树上路由器必须保存每一个组播组的转发状态。
In traditional IP multicast, data for a given group is forwarded through a tree structure covering the members of this group. The on-tree routers must maintain a per-group forwarding state.
RSVP消息以IP数据报文的形式发送,路由器保留“软状态”,由周期性保留消息进行刷新。
RSVP messages are sent as IP datagrams, and the router keeps "soft state", which is refreshed by periodic reservation messages.
博士生成一个网络链路状态广告,其中列出了所有的路由器网络。
The DR generates a Network Link State Advertisement, which lists all the routers on that network.
它不仅能够管理路由器本身的配置信息,而且能够向网络管理站报告路由器的相关状态,从而保证整个网络系统的正常运转。
It ensures smooth operating of the whole network by managing configuration of the router and reporting network status to management station.
组播组的聚合使得网络中组播树的数量减少,路由器需要维持的组播转发状态和传递控制信息带来的控制开销都大大降低。
With multicast tree aggregation, fewer trees are maintained which amounts to reduce both the number of forwarding states in routers and the overhead induced by control messages.
用户要求能够地从诊断路由器的问题天衣无缝地转移到求助信息状态,再到用户管理,再到磁盘问题状态等,所有这些都通过漫游实现。
Customers want to be able to move seamlessly from diagnosing a router problem to a helpdesk scenario to user management to a disk problem scenario, all by navigating around.
对于边状态的变化,方案采用路由器检测标记信息的方法进行同步,以确保标记的准确性和鲁棒性。
The state of edge was synchronized by checking the marked packets in order to keep accurate and robust marking.
根据分析结果,论文中提出了对于SEND协议及其扩展的实现的概要设计,分别描述了主机节点以及路由器节点上的系统框图以及状态转移图。
Then, by using the results of the analyses, the preliminary design of the implementation of SEND protocol and its extension on a LINUX system is proposed.
根据分析结果,论文中提出了对于SEND协议及其扩展的实现的概要设计,分别描述了主机节点以及路由器节点上的系统框图以及状态转移图。
Then, by using the results of the analyses, the preliminary design of the implementation of SEND protocol and its extension on a LINUX system is proposed.
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