Traffic Engineering Capabilities
Components of Traffic Engineering
Packet Forwarding Component
Packet Forwarding Based on Label Swapping
How a Packet Traverses an MPLS Backbone
Information Distribution Component
Path Selection Component
Offline Planning and Analysis
Signaling Component
Flexible LSP Calculation and Configuration
MPLS Introduction
MPLS and Traffic Engineering
Label Description
Special Labels
Label Allocation
Operations on Labels
Routers in an LSP
How a Packet Travels Along an LSP
Types of LSPs
Scope of LSPs
Constrained-Path LSP Computation
How CSPF Selects a Path
Path Selection Tie-Breaking
Computing Paths Offline
LSPs on an Overloaded Router
Fate Sharing
IGP Shortcuts
Enabling IGP Shortcuts
LSPs Qualified in Shortcut Computations
IGP Shortcut Applications
IGP Shortcuts and Routing Table
IGP Shortcuts and VPN Environments
Advertising LSPs into IGPs
IP and MPLS Packets on Aggregated Interfaces
MPLS Applications
BGP Destinations
IGP and BGP Destinations
Selecting a Forwarding LSP Next Hop
MPLS and Routing Tables
MPLS and Traffic Protection
Fast Reroute Overview
Detour Merging Process
Detour Computations
Fast Reroute Path Optimization
Automatic Bandwidth Allocation
Point-to-Multipoint LSPs
MPLS Load Balancing Based on the IP Header and MPLS Labels
DiffServ-Aware Traffic Engineering Introduction
DiffServ-Aware Traffic Engineering Features
DiffServ-Aware Traffic Engineered LSPs Overview
DiffServ-Aware Traffic Engineered LSPs Operation
Multiclass LSP Overview
Establishing a Multiclass LSP on the Differentiated Services Domain
Bandwidth Oversubscription Overview
LSP Size Oversubscription
Link Size Oversubscription
Class Type Oversubscription and Local Oversubscription Multipliers
Configuring the Ingress Router for MPLS-Signaled LSPs
Example: Configuring a Constrained-Path LSP for Which Junos OS Makes All Forwarding Decisions
Example: Configuring an Explicit-Path LSP
Example: Configuring a Constrained-Path LSP for Which Junos OS Makes Most Forwarding Decisions and Considers Hop Constraints
Example: Configuring a Constrained-Path LSP for Which Junos OS Makes Most Forwarding Decisions and the Secondary Path Is Explicit
mac-validate
Configuring the Intermediate and Egress Routers for MPLS-Signaled LSPs
Configuring a Default Route for Unlabeled MPLS Packets
Improving Traffic Engineering Database Accuracy with RSVP PathErr Messages
Configuring MPLS-Signaled LSPs to Use GRE Tunnels
Tunneling IPv6 Traffic over MPLS IPv4 Networks
Configuring ICMP Message Tunneling
LSP Configuration Overview
Configuring the Ingress and Egress Router Addresses for LSPs
Configuring Primary and Secondary LSPs
Configuring a Text Description for LSPs
Configuring Fast Reroute
Configuring the Optimization Interval for Fast Reroute Paths
Adding LSP-Related Routes to the inet.3 Routing Table
Configuring the Connection Between Ingress and Egress Routers
Configuring LSP Metrics
Configuring CSPF Tie Breaking
Configuring Load Balancing for MPLS LSPs
Disabling Normal TTL Decrementing
Configuring MPLS Soft Preemption
Configuring Automatic Bandwidth Allocation for LSPs
Disabling Constrained-Path LSP Computation
Configuring Administrative Groups
Configuring Preference Values for LSPs
Disabling Path Route Recording
Configuring Class of Service for MPLS LSPs
Configuring Adaptive LSPs
Configuring Priority and Preemption for LSPs
Optimizing Signaled LSPs
Configuring the Smart Optimize Timer
Limiting the Number of Hops in LSPs
Configuring the Bandwidth Value for LSPs
Configuring Hot Standby of Secondary Paths
Damping Advertisement of LSP State Changes
Configuring the Bandwidth Subscription Percentage for LSPs
Configuring LSPs for DiffServ-Aware Traffic Engineering
Configuring Multiclass LSPs
Configuring Static LSPs
Configuring Explicit-Path LSPs
Configuring Primary and Branch LSPs for Point-to-Multipoint LSPs
Example: Configuring a Point-to-Multipoint LSP
Configuring Link Protection for Point-to-Multipoint LSPs
Configuring Graceful Restart for Point-to-Multipoint LSPs
Configuring a Multicast RPF Check Policy for Point-to-Multipoint LSPs
Configuring Ingress PE Router Redundancy for Point-to-Multipoint LSPs
Enabling Point-to-Point LSPs to Monitor Egress PE Routers
Preserving Point-to-Multipoint LSP Functioning with Different Junos OS Releases
Configuring the Maximum Number of MPLS Labels
Configuring MPLS to Pop the Label on the Ultimate-Hop Router
Configuring Traffic Engineering for LSPs
Enabling Interarea Traffic Engineering
Enabling Inter-AS Traffic Engineering for LSPs
Configuring MPLS to Gather Statistics
Configuring System Log Messages and SNMP Traps for LSPs
Configuring MPLS Firewall Filters and Policers
Configuring MPLS Rewrite Rules
Configuring BFD for MPLS IPv4 LSPs
Pinging LSPs
Tracing MPLS and LSP Packets and Operations
[edit logical-systems] Hierarchy Level
[edit protocols connections] Hierarchy Level
[edit protocols ldp] Hierarchy Level
[edit protocols link-management] Hierarchy Level
[edit protocols mpls] Hierarchy Level
[edit protocols rsvp] Hierarchy Level
MPLS Standards
Link-Layer Support
Minimum MPLS Configuration
DiffServ-Aware Traffic Engineering Standards
DiffServ-Aware Traffic Engineering Terminology
Configuring Routers for DiffServ-Aware Traffic Engineering
Class Type Bandwidth and the LOM
LOM Calculation for the MAM and Extended MAM Bandwidth Models
LOM Calculation for the Russian Dolls Bandwidth Model
Example: LOM Calculation
adaptive
adjust-interval
adjust-threshold
adjust-threshold-overflow-limit
admin-down
admin-group
admin-groups
advertisement-hold-time
allow-fragmentation
always-mark-connection-protection-tlv
associate-backup-pe-groups
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rsvp-error-hold-time
secondary
select
signal-bandwidth
smart-optimize-timer
soft-preemption
standby
statistics
swap
switch-away-lsps
switching-type
te-class-matrix
to
traceoptions
traffic-engineering
http://kb.juniper.net/
