Finally, it introduces a product of MPLS.
最后介绍了当前的MPLS产品。
LDP protocol is the core of MPLS technology.
标记分发协议是MPLS的技术核心。
The data transmission in MPLS network is led by label.
MPLS网络中数据的传输靠标签引导。
The MPLS network technology data retransmission relies on label.
MPLS网络技术的数据转发依赖于标签。
It is urgent to design a platform to monitor MPLS Datagram in Ethernet.
以太网下MPLS数据流监测平台就在这种情况下应运而生。
The conception of MPLS multicast and needing are introduced in this paper.
阐述了MPLS组播的必要性及应用合并组播树的概念。
MPLS-based self healing is an important application characteristic of MPLS TE.
MPLS自愈恢复是MPLS流量工程的一种重要应用特性。
After consulting the LIB, the MPLS node forwards the packet toward its destination.
经过查找LIB之后,MPLS节点将包转发给它的目的地。
Users can predict and evaluate the performances of the MPLS technology and its application.
用户可以根据自己的需要,对MPLS技术及其各种应用进行预测或性能评价。
Finally this paper analyzes the MPLS VPN technical superiority and its application prospect.
最后分析了MPLSVPN的技术优势及其应用前景。
Furthermore, it is implemented by an optimization equation based on constraint route of MPLS te.
其实现是基于MPLS流量工程的约束路由的最优化方程。
This article depicts the base principle, the framework and the key-technology application of MPLS.
就MPLS的基本原理、框架结构及其关键技术应用等展开叙述。
Transport MPLS(T-MPLS)hierarchy(TMH)is the key point in recent transport network technology study.
传送多协议标签交换(MPLS)(T-MPLS)体系(TMH)是目前传送技术的研究的热点之一。
The network choking can be avoided by using MPLS Traffic Engineering and better service for user provided.
采用MPLS流量工程可以避免引起网络阻塞,为用户提供更好的服务。
MPLS can enhance network scalability and performance while providing advanced services in a simple package.
mpls能增强网络的可扩性和性能,同时以简单的一揽子做法提供高级的服务。
MPLS (Multiprotocol Label Switching) is "key" that opens the door of entering the new VPN technique of century.
多协议标记交换是打开进入新世纪VPN技术之门的“钥匙”。
Then it specifies the kernel concept of MPLS, explains MPLS protocol model, transmit principle and double plane structure.
然后详细介绍了MPLS的核心概念,讲解了MPLS的协议模型、转发原理和双平面结构。
The advantages of MPLS and multicast is complementary, MPLS multicast network can forward the traffic fast and efficiently.
MPLS与组播优势互补,MPLS组播网络能对数据进行高速有效的转发。
Now, many PE devices in MPLS VPN network do not support multicast service, as result, it brings difficulty in multicast service.
目前由于MPLSVPN网络中很多PE设备尚不支持组播业务,因此在VPN内部署组播业务时遇到了一定的困难。
It extends and improves traditional routing algorithm by importing the conception of critical link to route LSP in MPLS network.
对传统的路由算法加以扩充、改进,将关键链路思想加入其中,并应用到MPLS网络的LSP路由当中。
Load balancing algorithm researched in the paper is to implement traffic engineering in the WDM network which USES MPLS technology.
本文研究的负载均衡算法就是业务量工程在采用了MPLS技术的WDM网络中的实现。
All resources in MPLS networks have chances to fail, MPLS failure recovery mechanism is an important application characteristic of MPLS te.
在MPLS网络中,任何资源都有可能发生故障,MPLS故障恢复机制是MPLS流量工程的一种重要应用特性。
Because MPLS nodes can find integrated labels more rapidly than IP data or regular MPLS labels, network performance may be further improved.
由于mpls节点可以比ip数据或正规的mpls标签更快地找到结合的标签,故网络性能可以进一步提高。
The core of MPLS is the LDP protocol, LDPprovides the means for plentiful label distribute and relevant function process by its core mechanism.
MPLS的核心技术即是LDP协议。LD P可通过一套简单的核心机制来提供丰富的标记分发及相关处理功能。
There exists a waste of bandwidth resources due to the heuristic algorithms for the preemption in multi-protocol label-switching (MPLS) networks.
目前多协议标签交换(MPLS)网络中大多采用启发式算法进行抢占,造成了带宽资源的浪费。
MPLS architecture also supports LSP tunnels to simplify the transfer control, diminish the complexity of devices and enhance network performance.
MPLS体系结构能够利用LSP建立隧道,简化了传输控制,降低了设备复杂度,提高了网络性能。
This article discusses the implementing process of MPLS Traffic Engineering and analyses the advantages of it by comparing with the overlay model.
讨论了基于MPLS的流量工程的实现过程,并通过与覆盖模型的比较,分析了基于MPLS的流量工程技术的优势。
This article discusses the implementing process of MPLS Traffic Engineering and analyses the advantages of it by comparing with the overlay model.
讨论了基于MPLS的流量工程的实现过程,并通过与覆盖模型的比较,分析了基于MPLS的流量工程技术的优势。
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