用于流量工程的多点对点lsp的标签空间缩减

2nd European Conference on Universal Multiservice Networks. ECUMN'2001 (Cat. No.02EX563) Pub Date : 2002-08-07 DOI:10.1109/ECUMN.2002.1002086

S. Bhatnagar, S. Ganguly, B. Nath

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引用次数: 13

摘要

许多isp使用MPLS进行流量工程，以合理地计算和利用其资源。MPLS的一个基本问题是在满足流量需求的同时，减少lsp对标签空间的占用。虽然在最小化点到点LSP的背景下已经提出了路由机制，但对于多点到点LSP树，这个问题还没有得到足够的重视。我们提出了两种机制来减少多点对点lsp的标签空间使用。首先，给定一组满足流量需求的lsp，我们提出了一种简单的算法，将这些lsp合并到最小数量的出口根多点对点树中。然后，我们展示了一种机制，我们试图在单出口根多点对点LSP中拟合最大数量的流。我们在现实世界的拓扑和流量模式上评估了我们的方法，并展示了它们的有效性。

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Label space reduction in multipoint-to-point LSPs for traffic engineering

Many ISPs use MPLS for traffic engineering to account for and utilize their resources properly. A fundamental problem in MPLS is to reduce the label space usage by label switched paths (LSPs), while meeting the flow requirements. While routing mechanisms have been proposed in the context of minimizing point-to-point LSPs, the problem has not gained sufficient attention with respect to multipoint-to-point LSP trees. We propose two mechanisms to reduce the label space usage of multipoint-to-point LSPs. First, given a set of LSPs to meet flow demands, we propose a simple algorithm to merge these LSPs into a minimal number of egress rooted multipoint-to-point trees. Then we show a mechanism where we try to fit a maximal number of flows in a single egress rooted multipoint-to-point LSP. We evaluate our methods on real world topologies and traffic patterns and show their effectiveness.

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2nd European Conference on Universal Multiservice Networks. ECUMN'2001 (Cat. No.02EX563)

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