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- Table of Contents
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- 11-MPLS
- 01-HH3C-MPLSRSVP-MIB
- 02-HH3C-MPLSLSPV-MIB
- 03-HH3C-EVC-MIB
- 04-HH3C-L2VPN-MIB
- 05-HH3C-L3VPN-MIB
- 06-HH3C-MPLS-LDP-MIB
- 07-HH3C-MPLS-VPN-BGP-MIB
- 08-HH3C-MPLSCRLSP-MIB
- 09-HH3C-MPLSEXT-MIB
- 10-HH3C-VSI-MIB
- 11-HH3C-MPLSTE-MIB
- 12-HH3C-MPLSSLSP-MIB
- 13-HH3C-MPLSPCE-MIB
- 14-MPLS-FRR-FACILITY-STD-MIB
- 15-MPLS-FRR-GENERAL-STD-MIB
- 16-MPLS-FTN-STD-MIB
- 17-MPLS-L3VPN-STD-MIB
- 18-MPLS-LDP-STD-MIB
- 19-MPLS-LSR-STD-MIB
- 20-MPLS-TE-STD-MIB
- 21-PW-ENET-STD-MIB
- 22-PW-MPLS-STD-MIB
- 23-PW-STD-MIB
- 24-TE-MIB
- Related Documents
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| Title | Size | Download |
|---|---|---|
| 20-MPLS-TE-STD-MIB | 56.75 KB |
MPLS-TE-STD-MIB
About this MIB
MPLS-TE-STD-MIB is a standard MIB based on RFC 3812.
Network congestion can degrade the network backbone performance. It might occur when network resources are inadequate or when load distribution is unbalanced. Traffic engineering (TE) is intended to avoid the latter situation where partial congestion might occur because of improper resource allocation.
TE can make the best use of network resources and avoid uneven load distribution by using the following functionalities:
● Real-time monitoring of traffic and traffic load on network elements.
● Dynamic tuning of traffic management attributes, routing parameters, and resources constraints.
MPLS TE combines the MPLS technology and traffic engineering. It reserves resources by establishing LSP tunnels along the specified paths, allowing traffic to bypass congested nodes to achieve appropriate load distribution.
With MPLS TE, a service provider can deploy traffic engineering on the existing MPLS backbone to provide various services and optimize network resources management.
MIB file name
rfc3812-mpls-te-std.mib
