core router

美 [kɔːr ˈruːtər]英 [kɔː(r) ˈruːtə(r)]
  • 网络核心路由器;骨干路由器;核心节点
core routercore router
  1. Research on Scheme of the Core Router Based on the Network Processor

    基于网络处理器构建的核心路由器方案研究

  2. Design and Implementation of Line Card Interrupt System in the Core Router

    核心路由器线卡中断系统设计与实现

  3. Research on the Core Router BGP - 4 Protocol Implementation Technology

    核心路由器BGP-4协议实现技术的研究

  4. This method has applied to ATM interface design in core router successfully .

    该方法已经在核心路由器LC-ATM接口设计中得到成功应用。

  5. Implementation of the Core Router Distributed Routing Control

    核心路由器分布式路由控制的实现技术

  6. Core router technology based on shared buffer memory

    基于共享缓存的核心路由器技术

  7. A Design Method of POS Interface Based on ASIC + FPGA in Core Router

    核心路由器中基于ASIC+FPGA的POS接口设计

  8. Discussion About Transmission Technology Supporting 40 Gbit / s Core Router Interconnection

    支持40Gbit/s路由器的传输技术研究

  9. The research and implementation of LDP is an important step of developing high performance core router .

    对LDP协议的研究与实现是研制高性能核心路由器中的一个重要步骤。

  10. Design and Realize the Optical Interface Card of OC-192c Core Router

    OC-192c核心路由器光接口卡设计与实现

  11. The Improvement of Routing Lookup Mechanism In Core Router

    核心路由器查表机制的改进

  12. Architecture and Key Technologies of ZTE 's IPv6 Core Router

    中兴通讯IPv6核心路由器体系结构与关键技术

  13. Core Router Technique and Its Realization

    核心路由器技术及实现

  14. IPV6 standardization network core router analysis

    IPV6标准化网络核心路由器分析

  15. The main allocation access of core router controls the stack out of ACL .

    核心路由器上主要配置访问控制列表ACL的出栈应用。

  16. On Controlling the Congestion of the Core Router

    核心路由器的拥塞控制研究

  17. In OBS network , the scheduling algorithm for core router is important for the performance of switching network .

    在OBS网络中,核心节点的调度方案是影响网络交换性能的重要因素。

  18. The thesis is just about the design and implementation of Gigabit Ethernet Interface Card in Core Router .

    本文的研究课题是核心路由器中的千兆以太网接口卡的设计和实现。

  19. With the rapid development of communication technology , optical transmit technique demands higher requirement of the core router 's forwarding performance .

    光通信技术对核心路由器报文转发能力不断提出更高的要求。

  20. Hardware Implementation of Division at Gbps Line-Speed in Core Router

    核心路由器中G比特级线速除法的硬件实现

  21. The whole forwarding-system software is applied in IPv6 core router and interface for hardware platform is designed .

    分布式转发系统软件也应用到基于硬件转发的IPv6核心路由器上,并设计和调试了转发系统中的软硬件接口。

  22. The core router is the kernel of the Internet , so its availability is very important for stability of the network .

    骨干路由器是Internet的核心,为了保证网络的平稳运行,需要其具有相当高的可用性。

  23. Robustness testing of BGP in core router indicates that this system can greatly improve the router 's stability and reliability .

    该测试系统应用到核心路由器的协议研发中,显著地提高了核心路由器的稳定性和可靠性。

  24. We analysis the requirements of high availability of core router firstly , design and implement a protocols oriented high availability system based on message passing .

    本文首先分析了骨干路由器的高可用性要求,设计并实现了一种基于消息传递机制的面向协议软件的高可用性系统。

  25. In this paper , we also analyzed the flow control techniques in NPSI specification , introducing the implement of flow control in core router .

    本文还详细分析了网络处理器论坛NPSI规范中的流控技术,介绍了核心路由器中流控技术的实现。

  26. The Assured Services architecture relies on packet marking mechanism at the edge router , and queue management mechanism at the core router .

    确保服务的实现依赖于在边界路由器执行的数据包标记策略和在核心路由器执行的队列管理策略。

  27. The modern core router puts forward higher and higher standards on the speed of updating table , look-up rate and capacity of look-up table .

    现代核心路由器对查找速率、表项更新速度、查找表容量等提出越来越高的要求。

  28. The basic idea is to classify the traffic according to QoS requirements on the network edge , and different class realizes different forwarding characteristic on the core router .

    其基本思想是在网络边缘将业务流按QoS要求进行简单分类,不同的类在内部路由器的每次转发中实现不同的转发特性。

  29. In the paper , the writer describes from border router firewall core router distribute switch user access in sequence to arrange the security ploy .

    论文从网络边界出口路由器防火墙核心交换机汇聚交换机用户接入的顺序分别部署安全策略。

  30. The traditional packet scheduling algorithms , such as WFQ , are difficult to implement in high performance core router because of the problems of performance and extensibility .

    传统的分组调度算法,如WFQ,由于性能和可扩展性等问题,难以在高性能核心路由器中实现。