framing control meaning in English
成帧调节
成帧调解
成帧调整
校位控制
Examples
- Layer the controls within the frame control
对“框架”控件内的控件进行分层。 - Frame control property , method , and event equivalencies
Frame控件的属性、方法和事件等效项 - A simple splitter bar demo that shows how to use frame controls to implement vertical and horizontal splitter bars
这是一个简单的分割条演示程序,展示了如何使用帧控件来实现垂直和水平的分割条。 - It involves the communication between the visualgenserver and system of tower simulator , the communication between the visualgenserver and visualgenclients . frame control and the synchronization of visualgenclients . in the third part , we present the design and implement of visualgenclient , which deals with how to realize the render of a scene using 3d graphics engine performer
摘要2 )着重介绍视景服务器的设计和实现,在此部分涉及到了视景服务器自身的体系结构、键盘和鼠标事件处理、视景服务器和塔台模拟机系统服务器之间的通讯、视景服务器和从视景位之间的通讯,帧率控制以及如何控制从视景位的同步等。 - This text has analysed load balancing method of existent especially lvs cluster system and recommended the net packet and netfilter ’ s frame structures in the linux operating system ; it has compared the cooperative - type - cluster with tradictional cluster in the net packets ’ queue ways and with active cluster in the load balancing dispatcher way , which has reflected the superiority of cooperation type cluster ; the three major parts of the cooperative - type - cluster have been designed and realized in this text , which includes sync packets ’ priority service for dmcs 、 “ priority and avoid sudden load unbalance ” dispatch way at the cooperation of nodal servers and director and active nodal server which ensure cluster normally running when cluster join or rduce node server ; the cooperative - type - cluster ’ s control frame controlled by homepage has been constructed ; the mulit - services cluster system has been realized ; this text has used the existing server pressure testing tools to test the cooperative - type - cluster and lvs cluster , then has comparaed and analysed the two
本文分析了现有服务器集群特别是lvs集群系统的负载均衡方法,介绍了linux系统下的报文和netfilter的框架结构;将所提出的合作式集群与传统集群在报文排队方式上进行比较,与主动式集群在负载均衡调度方式上进行比较,体现了合作式集群的优越性;设计并实现了合作式集群体系结构的三大部分:针对分布式测控系统的加权服务、负载均衡器与节点服务器合作式“加权防突”负载调度、保证集群运行不受加减节点干扰的主动性真实服务器;构建了通过网页界面控制合作式集群的控制框架;实现了一个可运行的合作式多服务集群系统,运用现有服务器压力测试工具对合作式集群和lvs集群进行负载测试,并对测试结果进行比较分析,同时通过压力测试实现加权服务。