该模式由一个或多个随需应变路由器(odr)、一个或多个应用服务器以及一个部署管理器组成。
This pattern consists of one or more on demand routers (ODRs), one or more application servers, and one deployment manager.
用于分发客户机请求的路由器的类型直接影响超级集群的应用和相关限制。
The type of router that is used to distribute client requests directly influences the use of a super cluster and its associated limitations.
不需要在插件路由器级别维护会话亲缘性,因为当请求被转发给应用服务器时,会话亲缘性将由ODR 负责。
There is no need to maintain session affinity at the plug-in router level, as session affinities will be taken care of by the ODRs when the requests are forwarded on to the application servers.
大多数路由器组件在向集群成员(应用服务器)转发请求时都可以维护相应的亲缘性。
Most router components can maintain the appropriate affinities while forwarding requests to the cluster members (application servers).
选定的Web服务器将作为发送到您的应用程序的请求的路由器。
The selected Web server will serve as routers for requests to your application.
该模式由一个或多个Web服务器、一个或多个随需应变路由器、一个或多个应用服务器以及一个部署管理器组成。
This pattern consists of one or more Web servers, one or more on demand routers, one or more application servers, and one deployment manager.
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.
比方说,如果只是将其转换成特定于应用程序的对象模型然后就将其丢弃,那么为Web服务路由器servlet提供一个DOM就没有多少用处。
For example, it is of little use to a Web Service router servlet to be handed a DOM if all it does is translate it to an application-specific object model and then simply discard it.
RestletFramework使用一种基于路由器的复杂机制来路由应用程序内的URI调用。
The Restlet Framework USES a sophisticated router-based mechanism to route URI calls within the application.
该竞赛提出的挑战题目是为Cisco的整合服务路由器创建一个应用程序扩展平台应用。
The challenge was to create an AXP application for Cisco’s ISR.
新的硬件(路由器、服务器及存储设备)及服务器软件(应用服务器、数据库及ERP解决方案)修订版的不断出现,频率之快令人惊动。
New hardware (routers, servers, and storage) and revisions to server software (application servers, databases, and ERP solutions) appear with alarming frequency.
如果其中一个集群成员失败,那么路由器可以将客户机请求传递到其他集群成员上的应用程序中。
If one cluster member fails, the router can direct client requests to the application on one of the other cluster members.
随需应变路由器将这些请求发送到动态集群,该动态集群是一个应用程序服务器和应用程序实例可以消耗的资源池。
The on demand router sends these requests to dynamic clusters, which represent a pool of resource that application servers and application instances can consume.
甚至更好的是,连接路由器提供了另一个安全和监视层;具体说来,它可以很容易地准确报告何时对应用程序进行观察,以及对应用程序观察了多长时间。
Even better, the connection router provides another layer of security and monitoring; in particular, it can easily report on exactly when and how long an application has been viewed.
在以应用程序为中心的云计算环境中,针对特定的应用程序管理系统,而不是管理服务器和路由器。
In an application-centric cloud environment, you are managing systems for specific applications rather than managing servers and routers.
向路由器Web应用程序添加agents和managers角色,如下所示。
Add the agents and managers roles to the router Web application as follows.
很明显,有两个关键性组成部分提供应用程序虚拟化功能:随需应变路由器(on demand router)和动态集群。
Notably, there are two components critical to providing application virtualization capabilities: the on demand router and the dynamic cluster.
模块可能在应用启动时主动加载,也可能由路由器进行异步惰性加载。
Modules can be loaded eagerly when the application starts. They can also be lazy loaded asynchronously by the router.
我们正在确保所有的光纤路由器都能应用IPv6。
We are making sure all our fibre routers are ready for IPv6.
事实上,FSF第一次提到Cisco关于不当使用开源代码以引起公司的注意就需要回到2004年Cisco将它们应用到Linksys的WRT54 G无线路由器。
In fact, the FSF first brought Cisco's improper use of open-source code to the company's attention back in 2004 with its use in the Linksys WRT54G wireless router.
在一些服务比如使用微软的Xbox Live上使用便携式的“口袋站点”路由器就可以玩转临时的游戏聚会,这是一个明显应用4g网络优势的方式。
Using a portable "pocket spot" router to support AD hoc gaming parties over services such as Microsoft's Xbox Live is an obvious way to take advantage of 4g networks.
我的一个应用程序使用路由器自动将数据发送到正确的数据库,这样做很容易因为这个程序只处理一个数据库。
One of my apps USES a Router to automatically send data to the correct database — this is easily done since this app only deals with that one database.
路由器可以在应用启动之后和用户导航到惰性加载模块之前,预先加载惰性模块,以增强性能。
The router can lazily preload modules after the app starts and before the user navigates to them for improved perceived performance.
提出了一种基于应用类别和分组优先级的队列管理与自适应丢包机制,用于路由器内因特网拥塞控制。
An application class and packet priority-based queue management and adaptive packet drop mechanism in the routers for Internet congestion control is put forward.
IP分类算法是应用在高性能路由器中的一种重要算法。研究IP分类算法对于提高路由器综合性能具有重要意义。
IP packet algorithm is an important algorithm which is used in routers. Thus, study of IP packet algorithm is very important to improve the comprehensive performance of router.
核心路由器可能应用于各种环境,它必须提供多种路由协议,包括RIP、OSPF、IS-IS以及BGP等内部和外部网关路由协议。
As core router may be used in all kinds of environments, it must implement multiple routing protocols, including RIP, OSPF, IS-IS, BGP and other Interior or Exterior routing protocols.
在通信行业中,嵌入式系统在路由器和交换机等通信设备中得到了广泛的应用。
In communicated industry, embedded system is applied in communicated machine, such as router and switcher etc.
否则,恶意的监听者就可以在你的应用程序与最终用户之间的任何路由器上通过数据包探嗅到那些敏感的信息。
Otherwise, a malicious eavesdropper on any router between your server and the end user can very easily sniff the sensitive information out of the network packets.
理论分析和实际应用表明,该算法具有良好的公平性,并且具有实现简单的优点,可以很方便地用于核心路由器高密度线路接口卡设计中。
Analysis reveals that it is a fair algorithm and is easy to be implemented and can be implemented in the design of high density interface card design in core routers.
理论分析和实际应用表明,该算法具有良好的公平性,并且具有实现简单的优点,可以很方便地用于核心路由器高密度线路接口卡设计中。
Analysis reveals that it is a fair algorithm and is easy to be implemented and can be implemented in the design of high density interface card design in core routers.
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