Complete MPLS Traffic Engineering Training by Arash Deljoo

Name: Complete MPLS Traffic Engineering Training by Arash Deljoo
Rating: 4.8 (79 reviews)

Optimize Network Performance with Advanced Traffic Engineering Strategies

Created byArash Deljoo

Last updated 11/2025

English

What you'll learn

MPLS-TE Fundamental
MPLS-TE Basic Configuration and Verification
MPLS-TE Explicit Tunnel [ OSPF ]
MPLS-TE OSPF Opaque LSA Type-10 and RSVP Concepts
MPLS-TE Explicit Tunnel [ IS-IS ]
MPLS-TE ISIS-TE Extension
MPLS-TE Multiple Explicit Tunnel [ ISIS ]
MPLS-TE Multiple Explicit Tunnel using PBR [ OSPF ]
MPLS-TE Dynamic Tunnel [ OSPF ]
MPLS-TE Semi-Dynamic Tunnel Using Exclude Address [ ISIS ]
MPLS-TE Semi-Dynamic Tunnel with Loose Next-Hop [ ISIS ]
MPLS-TE Auto Bandwidth
MPLS-TE Affinity-Attribute-Flag
MPLS-TE Administrative Weight
MPLS-TE Setup and Hold Priority
MPLS-TE Reoptimization
MPLS-TE Autoroute Announce and Metric
MPLS-TE Forwarding Adjacency
MPLS-TE Class Based Tunnel Selection [ CBTS ]
MPLS-TE AToM Tunnel Selection
MPLS-TE Cost Calculation
MPLS-TE Equal Cost Load Sharing
MPLS-TE Unequal Cost Load Sharing
MPLS-TE Adjusting the Cost Calculation
MPLS-TE RSVP , Labels , RSVP Messages
MPLS-TE RSVP Messages Details
MPLS-TE Link Manager
MPLS-TE Fast ReRoute [FRR] - Link Protection
MPLS-TE Fast ReRoute [FRR] - Node Protection
MPLS-TE Fast ReRoute [FRR] - Multiple Backup Tunnel [NNHOP]
MPLS-TE Fast ReRoute [FRR] - Multiple Backup Tunnel [NHOP,NNHOP]
MPLS-TE Fast ReRoute [FRR] - Multiple Backup Tunnel [SRLG]
MPLS-TE Fast ReRoute [FRR] - Multiple Backup Tunnel [Backup Bandwidth - Promotion]
MPLS-TE Path Protection
MPLS-TE and MPLS VPN - PE-to-PE Tunnel
MPLS-TE and MPLS VPN - VRF-to-PE Tunnel
MPLS-TE and MPLS VPN - PE-to-P Tunnel
MPLS-TE and MPLS VPN - PE-to-P - Targeted Tunnel
MPLS-TE Inter-Area TE Tunnel [ OSPF ]
MPLS-TE Inter-Area TE Tunnel [ IS-IS ]

Course content

5 sections • 45 lectures • 29h 30m total length

Intro to MPLS Traffic Engineering4:19
1- MPLS Traffic Engineering Introduction
2- MPLS Traffic Engineering Capabilities Introduction
3- MPLS Traffic Engineering FastReroute (FRR) Introduction
The Protocols of MPLS Traffic Engineering54:14
1- MPLS Traffic Engineering Usage
2- The IGP Role in MPLS Traffic Engineering
3- OSPF or IS-IS Usage in MPLS Traffic Engineering
4- RSVP Introduction
5- RSVP-TE Usage MPLS Traffic Engineering
6- RSVP Messages Introduction
7- Compare IP Routing vs. MPLS Traffic Engineering

MPLS TE Tunnel Implementation1:18:46
1- MPLS TE Tunnel Configuration
2- MPLS TE Tunnel Verification
3- Unnumbered IP Address Usage in Traffic-Engineering Tunnel
4- Bandwidth Requirement Configuration in Traffic-Engineering Tunnel
5- Dynamic Path Calculation Configuration in Traffic-Engineering Tunnel
6- Forwarding Traffic from MPLS TE Tunnel
Implementing Explicit Paths in MPLS TE with OSPF1:04:48
1- MPLS TE Configuration - Service Provider IP Addressing
2- MPLS TE Configuration - IGP Configuration [OSPF]
3- MPLS TE Configuration - Bandwidth Configuration
4- MPLS TE Configuration - Traffic Engineering Global Configuration
5- MPLS TE Configuration - Traffic Engineering Interface Configuration
6- MPLS TE Configuration - RSVP Interface Configuration
7- MPLS TE Configuration - Interface Tunnel Configuration
8- MPLS TE Configuration - Explicit Path Option Configuration
9- MPLS TE Configuration - Forwarding Traffic to TE Tunnel with Static Routing
10- MPLS TE Verification - TE Tunnel Verification
11- MPLS TE Verification - RSVP Verification
MPLS TE with Explicit Paths and Static Routing32:49
1- MPLS Traffic-Engineering (TE) Global Configuration
2- MPLS Traffic-Engineering (TE) IGP Configuration
3- MPLS Traffic-Engineering (TE) Interface Configuration
4- RSVP Interface Configuration
5- IP Explicit Path Configuration with Two Methods (Identifier/Name)
6- MPLS Traffic-Engineering (TE) Tunnel with Explicit Path Configuration
7- MPLS Traffic-Engineering (TE) Tunnel with Explicit Path Verification
8- Steering Traffic into MPLS Traffic-Engineering (TE) Tunnel with Static Route
OSPF Extensions for MPLS Traffic Engineering58:29
1- OSPF Opaque LSA ( LSA TYPE-9 , TYPE-10 , TYPE-11 ) Introduction
2- OSPF Opaque LSA TYPE-10 TLVs Introduction
3- OSPF Opaque LSA TYPE-10 Router Address TLV Introduction
4- OSPF Opaque LSA TYPE-10 Link State TLV Introduction
5- OSPF Opaque LSA TYPE-10 Link State TLVs Sub-TLVs Introduction
6- Sub-TLV 1 ( Link-Type ) Introduction
7- Sub-TLV 2 ( Link ID ) Introduction
8- Sub-TLV 3 ( Local Interface IP ) Introduction
9- Sub-TLV 4 ( Remote Interface IP ) Introduction
10- Sub-TLV 5 ( TE Metric ) Introduction
12- Sub-TLV 6 ( Maximum Bandwidth ) Introduction
13- Sub-TLV 7 ( Reservable Bandwidth ) Introduction
14- Sub-TLV 8 ( Unreserved Bandwidth ) Introduction
15- Sub-TLV 9 ( Resource Class ) Introduction
16- RSVP Path Message Verification
17- RSVP RESV Message Verification
Implementing Explicit Paths in MPLS TE with IS-IS33:35
1- MPLS TE Configuration - Service Provider IP Addressing
2- MPLS TE Configuration - IGP Configuration [IS-IS]
3- MPLS TE Configuration - Bandwidth Configuration
4- MPLS TE Configuration - Traffic Engineering Global Configuration
5- MPLS TE Configuration - Traffic Engineering Interface Configuration
6- MPLS TE Configuration - RSVP Interface Configuration
7- MPLS TE Configuration - Interface Tunnel Configuration
8- MPLS TE Configuration - Explicit Path Option Configuration
9- MPLS TE Configuration - Forwarding Traffic to TE Tunnel with Static Routing
10- MPLS TE Verification - TE Tunnel Verification
11- MPLS TE Verification - RSVP Verification
IS-IS Extensions for MPLS Traffic Engineering26:17
1- IS-IS TE Extension Introduction
2- IS-IS TLV Type 134 Introduction
3- IS-IS TLV Type 22 Introduction
4- IS-IS TLV Type 22's Sub-TLVs Introduction
5- IS-IS TLV Type 22's Sub-TLV Administrative Group (type-3) Introduction
6- IS-IS TLV Type 22's Sub-TLV IPv4 Interface Address (type-6) Introduction
7- IS-IS TLV Type 22's Sub-TLV IPv4 Neighbor Address (type-8) Introduction
8- IS-IS TLV Type 22's Sub-TLV Maximum Link Bandwidth (type-9) Introduction
9- IS-IS TLV Type 22's Sub-TLV Reservable Link Bandwidth (type-10) Introduction
10- IS-IS TLV Type 22's Sub-TLV Unreserved Link Bandwidth (type-11) Introduction
11- Compare OSPF and IS-IS about the TE Extensions
MPLS TE with Multiple Explicit Paths50:22
1- The Usage of MPLS-TE Multiple Explicit Tunnel
2- MPLS TE Configuration - Service Provider IP Addressing
3- MPLS TE Configuration - IGP Configuration [IS-IS]
4- MPLS TE Configuration - Traffic Engineering Global Configuration
5- MPLS TE Configuration - Traffic Engineering Interface Configuration
6- MPLS TE Configuration - RSVP Interface Configuration
7- MPLS TE Configuration - Interface Tunnel Configuration
8- MPLS TE Configuration - Explicit Path Option Configuration
9- MPLS TE Configuration - Forwarding Traffic to TE Tunnel with Static Routing
10- MPLS TE Verification - TE Tunnel Verification
11- MPLS TE Verification - RSVP Verification
MPLS TE Traffic Steering with PBR30:04
1- The Usage of MPLS-TE Multiple Explicit Tunnel
2- MPLS TE Configuration - Service Provider IP Addressing
3- MPLS TE Configuration - IGP Configuration [OSPF]
4- MPLS TE Configuration - Traffic Engineering Global Configuration
5- MPLS TE Configuration - Traffic Engineering Interface Configuration
6- MPLS TE Configuration - RSVP Interface Configuration
7- MPLS TE Configuration - Interface Tunnel Configuration
8- MPLS TE Configuration - Explicit Path Option Configuration
9- MPLS TE Configuration - Forwarding Traffic to TE Tunnel with Policy Based Routing [PBR]
10- MPLS TE Verification - TE Tunnel Verification
11- MPLS TE Verification - RSVP Verification
MPLS TE with Dynamic Path Selection25:34
1- MPLS TE Configuration - Service Provider IP Addressing
2- MPLS TE Configuration - IGP Configuration [OSPF]
3- MPLS TE Configuration - Bandwidth Configuration
4- MPLS TE Configuration - Traffic Engineering Global Configuration
5- MPLS TE Configuration - Traffic Engineering Interface Configuration
6- MPLS TE Configuration - RSVP Interface Configuration
7- MPLS TE Configuration - Interface Tunnel Configuration
8- MPLS TE Configuration - Dynamic Path Option Configuration
9- MPLS TE Configuration - Forwarding Traffic to TE Tunnel with Static Routing
10- MPLS TE Verification - TE Tunnel Verification
11- MPLS TE Verification - RSVP Verification
MPLS TE Dynamic Tunnels & Bandwidth19:18
1-Core Functionality of MPLS-TE Dynamic Tunnels
2-Advantages and Use Cases for Dynamic Tunnels
3-Configuration of MPLS-TE Dynamic Tunnels
4-The Concept of Max-Reservable Bandwidth
5-Evolution of Max-Reservable Bandwidth in newer IOS
MPLS TE Semi-Dynamic Tunnels with Exclude Address31:28
1- MPLS TE Semi-Dynamic Introduction
2- MPLS TE Semi-Dynamic Using Exclude Address Introduction
3- MPLS TE Semi-Dynamic Using Exclude Address Configuration
4- MPLS TE Semi-Dynamic Using Exclude Address Verification
5- MPLS TE Configuration - Service Provider IP Addressing
6- MPLS TE Configuration - IGP Configuration [IS-IS]
7- MPLS TE Configuration - Traffic Engineering Global Configuration
8- MPLS TE Configuration - Traffic Engineering Interface Configuration
9- MPLS TE Configuration - RSVP Interface Configuration
10- MPLS TE Configuration - Interface Tunnel Configuration
11- MPLS TE Configuration - Explicit Path Option Configuration
12- MPLS TE Configuration - Forwarding Traffic to TE Tunnel with Static Routing
13- MPLS TE Verification - TE Tunnel Verification
14- MPLS TE Verification - RSVP Verification
MPLS TE Semi-Dynamic Tunnels & Exclusion15:41
1-Fundamentals of MPLS Traffic Engineering (MPLS-TE)
2-Semi-Dynamic Tunnel Establishment
3-The Exclude Option for Path Computation
4-Use Cases and Benefits of Exclusion
5-Enhancing Network Resilience and Efficiency with MPLS-TE
MPLS TE Semi-Dynamic Tunnels with Loose Hop31:52
1- MPLS TE Semi-Dynamic Introduction
2- MPLS TE Semi-Dynamic Using Loose Next-Hop Introduction
3- MPLS TE Semi-Dynamic Using Loose Next-Hop Configuration
4- MPLS TE Semi-Dynamic Using Loose Next-Hop Verification
5- MPLS TE Configuration - Service Provider IP Addressing
6- MPLS TE Configuration - IGP Configuration [IS-IS]
7- MPLS TE Configuration - Traffic Engineering Global Configuration
8- MPLS TE Configuration - Traffic Engineering Interface Configuration
9- MPLS TE Configuration - RSVP Interface Configuration
10- MPLS TE Configuration - Interface Tunnel Configuration
11- MPLS TE Configuration - Explicit Path Option Configuration
12- MPLS TE Configuration - Forwarding Traffic to TE Tunnel with Static Routing
13- MPLS TE Verification - TE Tunnel Verification
14- MPLS TE Verification - RSVP Verification
MPLS TE Loose Hops, CSPF, and Resilience13:49
1-The Concept of Loose vs. Strict Hops in MPLS-TE
2-Operational Model of Semi-Dynamic Tunnels
3-Configuring Next-Hop Loose for Flexibility and Resilience
4-Dynamic Path Computation with CSPF
5-Achieving Network Resilience and Optimal Path Selection
Automating MPLS TE with Auto Bandwidth55:37
1- MPLS TE Auto Bandwidth Introduction
2- MPLS TE Auto Bandwidth Configuration
3- MPLS TE Auto Bandwidth Collect-BW Function
4- MPLS TE Auto Bandwidth Frequency Function
5- MPLS TE Auto Bandwidth Min-BW Function
6- MPLS TE Auto Bandwidth Max-Bw Function
7- MPLS TE Auto Bandwidth Verification
8- MPLS TE Configuration - Service Provider IP Addressing
9- MPLS TE Configuration - IGP Configuration [OSPF]
10- MPLS TE Configuration - Traffic Engineering Global Configuration
11- MPLS TE Configuration - Traffic Engineering Interface Configuration
12- MPLS TE Configuration - RSVP Interface Configuration
13- MPLS TE Configuration - Interface Tunnel Configuration
14- MPLS TE Configuration - Dynamic Path Option Configuration
15- MPLS TE Configuration - Forwarding Traffic to TE Tunnel with Static Routing
16- MPLS TE Verification - TE Tunnel Verification
17- MPLS TE Verification - RSVP Verification
MPLS TE Affinity & Attribute-Based Path Control48:42
1- MPLS-TE Attribute-Flag Introduction
2- MPLS-TE Attribute-Flag Configuration
3- MPLS-TE Attribute-Flag Verification
4- MPLS-TE Affinity Introduction
5- MPLS-TE Affinity Configuration
6- MPLS-TE Affinity Verification
7- MPLS TE Configuration - Service Provider IP Addressing
8- MPLS TE Configuration - IGP Configuration [OSPF]
9- MPLS TE Configuration - Traffic Engineering Global Configuration
10- MPLS TE Configuration - Traffic Engineering Interface Configuration
11- MPLS TE Configuration - RSVP Interface Configuration
12- MPLS TE Configuration - Interface Tunnel Configuration
13- MPLS TE Configuration - Dynamic Path Option Configuration
14- MPLS TE Configuration - Forwarding Traffic to TE Tunnel with Static Routing
15- MPLS TE Verification - TE Tunnel Verification
16- MPLS TE Verification - RSVP Verification
MPLS TE Administrative Weight for Path Control47:44
1- MPLS-TE Administrative Weight Introduction
2- MPLS-TE Administrative Weight Configuration
3- MPLS-TE Administrative Weight Verification
4- MPLS TE Configuration - Service Provider IP Addressing
5- MPLS TE Configuration - IGP Configuration [OSPF]
6- MPLS TE Configuration - Traffic Engineering Global Configuration
7- MPLS TE Configuration - Traffic Engineering Interface Configuration
8- MPLS TE Configuration - RSVP Interface Configuration
9- MPLS TE Configuration - Interface Tunnel Configuration
10- MPLS TE Configuration - Dynamic Path Option Configuration
11- MPLS TE Configuration - Forwarding Traffic to TE Tunnel with Static Routing
12- MPLS TE Verification - TE Tunnel Verification
13- MPLS TE Verification - RSVP Verification
MPLS TE Preemption with Setup & Hold Priority51:01
1- MPLS-TE Setup Priority Introduction
2- MPLS-TE Hold Priority Introduction
3- MPLS-TE Setup Priority Usage
4- MPLS-TE Hold Priority Usage
5- MPLS-TE Setup Priority Configuration
6- MPLS-TE Hold Priority Configuration
7- MPLS TE Configuration - Service Provider IP Addressing
8- MPLS TE Configuration - IGP Configuration [IS-IS]
9- MPLS TE Configuration - Bandwidth Configuration
10- MPLS TE Configuration - Traffic Engineering Global Configuration
11- MPLS TE Configuration - Traffic Engineering Interface Configuration
12- MPLS TE Configuration - RSVP Interface Configuration
13- MPLS TE Configuration - Interface Tunnel Configuration
14- MPLS TE Configuration - Explicit Path Option Configuration
15- MPLS TE Configuration - Forwarding Traffic to TE Tunnel with Static Routing
16- MPLS TE Verification - TE Tunnel Verification
17- MPLS TE Verification - RSVP Verification
MPLS TE Reoptimization Triggers and Control40:09
1- MPLS-TE Reoptimization Introduction
2- MPLS-TE Reoptimization Types
3- MPLS-TE Periodic Reoptimization Introduction
4- MPLS-TE Periodic Reoptimization Configuration
5- MPLS-TE Event-Driven Reoptimization Introduction
6- MPLS-TE Event-Driven Link-Up Reoptimization Configuration
7- MPLS-TE Manual Reoptimization Introduction
7- MPLS TE Configuration - Service Provider IP Addressing
8- MPLS TE Configuration - IGP Configuration [IS-IS]
9- MPLS TE Configuration - Bandwidth Configuration
10- MPLS TE Configuration - Traffic Engineering Global Configuration
11- MPLS TE Configuration - Traffic Engineering Interface Configuration
12- MPLS TE Configuration - RSVP Interface Configuration
13- MPLS TE Configuration - Interface Tunnel Configuration
14- MPLS TE Configuration - Dynamic Path Option Configuration
15- MPLS TE Configuration - Dynamic Lock-Down Introduction
16- MPLS TE Configuration - Dynamic Lock-Down Configuration
17- MPLS TE Verification - TE Tunnel Verification
18- MPLS TE Verification - RSVP Verification
Automating IGP Routing with MPLS TE Autoroute39:30
1- MPLS-TE Autoroute Introduction
2- MPLS-TE Autoroute Configuration
3- MPLS-TE Autoroute Metric Configuration
4- MPLS-TE Autoroute Verification
5- MPLS TE Configuration - Service Provider IP Addressing
6- MPLS TE Configuration - IGP Configuration [OSPF]
7- MPLS TE Configuration - Traffic Engineering Global Configuration
8- MPLS TE Configuration - Traffic Engineering Interface Configuration
9- MPLS TE Configuration - RSVP Interface Configuration
10- MPLS TE Configuration - Interface Tunnel Configuration
11- MPLS TE Configuration - Dynamic Path Option Configuration
12- MPLS TE Verification - TE Tunnel Verification
13- MPLS TE Verification - RSVP Verification
MPLS TE Forwarding Adjacency33:11
1- MPLS-TE Forwarding Adjacency Introduction
2- MPLS-TE Forwarding Adjacency Usage
3- MPLS-TE Forwarding Adjacency Configuration
4- MPLS-TE Forwarding Adjacency Holdtime Introduction
5- MPLS-TE Forwarding Adjacency Holdtime Usage
6- MPLS-TE Forwarding Adjacency Holetime Configuration
7- MPLS-TE Forwarding Adjacency Verification
8- MPLS TE Configuration - Service Provider IP Addressing
9- MPLS TE Configuration - IGP Configuration [IS-IS]
10- MPLS TE Configuration - Traffic Engineering Global Configuration
11- MPLS TE Configuration - Traffic Engineering Interface Configuration
12- MPLS TE Configuration - RSVP Interface Configuration
13- MPLS TE Configuration - Interface Tunnel Configuration
14- MPLS TE Configuration - Explicit Path Option Configuration
15- MPLS TE Verification - TE Tunnel Verification
16- MPLS TE Verification - RSVP Verification
MPLS TE Class-Based Tunnel Selection (CBTS)55:35
1- MPLS-TE Class Based Tunnel Selection [ CBTS ] Introduction
2- MPLS-TE Class Based Tunnel Selection [ CBTS ] Configuration
3- Quality of Service ToS and IPP Introduction
4- MPLS EXPermental bits [EXP] Introduction
5- MPLS TE Configuration - Service Provider IP Addressing
6- MPLS TE Configuration - IGP Configuration [OSPF]
7- MPLS TE Configuration - Traffic Engineering Global Configuration
8- MPLS TE Configuration - Traffic Engineering Interface Configuration
9- MPLS TE Configuration - RSVP Interface Configuration
10- MPLS TE Configuration - Interface Tunnel Configuration
11- MPLS TE Configuration - Dynamic Path Option Configuration
12- MPLS TE Verification - TE Tunnel Verification
13- MPLS TE Verification - RSVP Verification
MPLS TE for AToM Pseudowires52:55
1- MPLS-TE AToM Tunnel Selection Introduction
2- MPLS-TE AToM Tunnel Selection Configuration
3- MPLS-TE AToM Tunnel Selection Verification
4- Service Provider IP Addressing Configuration
5- Service Provider IGP Configuration [OSPF]
6- Service Provider BGP Configuration for VPNv4
7- Service Provider VRF Configuration
8- BGP Routing between PE-CE
9- Any Transport over MPLS [AToM] Configuration
10- Traffic Engineering Global Configuration
11- Traffic Engineering Interface Configuration
12- RSVP Interface Configuration
13- Interface Tunnel Configuration
14- Dynamic Path Option Configuration
15- AToM Tunnel Selection Configuration
16- TE Tunnel Verification
MPLS TE Equal & Unequal Cost Load-Balancing1:15:31
1- MPLS-TE Cost Calculation Introduction
2- MPLS-TE Equal Cost Load-Balancing between IGP and TE Path for Tunnel Tail Network
3- MPLS-TE Equal Cost Load-Balancing between IGP and TE Path for behind of Tunnel Tail Network
4- MPLS-TE Equal Cost Load-Balancing between TE Tunnels for Tunnel Tail Network
5- MPLS-TE Equal Cost Load-Balancing between TE Tunnels for behind of Tunnel Tail Network
6- MPLS-TE Unequal Cost Load-Balancing between IGP and TE Path for Tunnel Tail Network
7- MPLS-TE Unequal Cost Load-Balancing between IGP and TE Path for behind of Tunnel Tail Network
8- MPLS-TE Unequal Cost Load-Balancing between TE Tunnels for Tunnel Tail Network
9- MPLS-TE Unequal Cost Load-Balancing between TE Tunnels Path for behind of Tunnel Tail Network
10- MPLS TE Configuration - Service Provider IP Addressing
11- MPLS TE Configuration - IGP Configuration [OSPF]
12- MPLS TE Configuration - Bandwidth Configuration
13- MPLS TE Configuration - Traffic Engineering Global Configuration
14- MPLS TE Configuration - Traffic Engineering Interface Configuration
15- MPLS TE Configuration - RSVP Interface Configuration
16- MPLS TE Configuration - Interface Tunnel Configuration
17- MPLS TE Configuration - Explicit Path Option Configuration
18- MPLS TE Verification - TE Tunnel Verification
MPLS TE ECLB IGP vs. TE Paths11:33
1- MPLS-TE Equal Cost Load-Balancing between IGP and TE Path for Tunnel Tail Network
2- MPLS-TE Equal Cost Load-Balancing between IGP and TE Path for behind of Tunnel Tail Network
3- MPLS-TE Equal Cost Load-Balancing between TE Tunnels for Tunnel Tail Network
4- MPLS-TE Equal Cost Load-Balancing between TE Tunnels for behind of Tunnel Tail Network
MPLS TE Unequal Cost Load-Balancing13:09
1- MPLS-TE UnEqual Cost Load-Balancing between TE Tunnels for Tunnel Tail Network
2- MPLS-TE UnEqual Cost Load-Balancing between TE Tunnels for behind of Tunnel Tail Network
MPLS TE Autoroute Cost Types41:02
1- MPLS-TE Interface Tunnel Cost Types Introduction
2- MPLS-TE Autoroute Cost Types
3- MPLS-TE Autoroute Direct Cost Introduction
4- MPLS-TE Autoroute Absolute Cost Introduction
5- MPLS-TE Autoroute Relative Cost Introduction
6- MPLS-TE Autoroute Direct Cost Configuration
7- MPLS-TE Autoroute Absolute Cost Configuration
8- MPLS-TE Autoroute Relative Cost Configuration
9- MPLS-TE Autoroute Direct Cost Verification
10- MPLS-TE Autoroute Absolute Cost Verification
11- MPLS-TE Autoroute Relative Cost Verification
QoS Models From IntServ to RSVP-TE1:01:39
1- QoS [ Quality of Service ] Implemention Methods
2- QoS Best Effort Model Introduction
3- QoS Diffrentiated Service [ DiffServ ] Model Introduction
4- QoS Integrated Service [ IntServ ] Model Introduction
5- RSVP [ ReSource reserVation Protocol ] Introduction
6- RSVP Usage in QoS IntServ Model
7- RSVP-TE Introduction
8- RSVP-TE Usage in Traffic Engineering
9- RSVP-TE Path Message Introduction
10- RSVP-TE Resv Message Introduction
11- Explicit Null and Implicit Null Label
Inside RSVP-TE Messages and Objects1:06:56
1- RSVP Path Message Fields Introduction
2- RSVP RESV Message Fields Introduction
3- Record Route Object [RRO] Introduction
4- Record Route Object [RRO] Configuration
5- Record Route Object [RRO] Verification
6- Shared Explicit [SE] RSVP Style Introduction
7- RSVP Error Messages Introduction
8- RSVP PathErr Message Introduction
9- RSVP PathTear Message Introduction
10- RSVP ResvErr Message Introduction
11- RSVP ResvTear Message Introduction
12- RSVP Message Debugging
13- TE Make Before Break Introduction
MPLS TE Link Manager Thresholds & Triggers44:37
1- MPLS-TE Link Manager Introduction
2- MPLS-TE Link Manager Admission Control
3- MPLS-TE Link Manager Preemption
4- MPLS-TE Link Manager IGP Triggering
5- MPLS-TE Link Manager IGP Triggering Down Threshold
6- MPLS-TE Link Manager IGP Triggering Up Threshold
7- MPLS-TE Link Manager Verification Commands
8- MPLS-TE Link Manager Debugging Commands
9- OSPF Interval Update Configuration
10- ISIS Interval Update Configuration

MPLS TE Link Protection with FRR1:35:40
1- The Need to MPLS-TE Fast ReRoute
2- MPLS-TE Fast ReRoute Introduction
3- MPLS-TE Fast ReRoute Point of Local Repair [PLR] Introduction
4- MPLS-TE Fast ReRoute Merge Point [MP] Introduction
5- MPLS-TE Fast ReRoute - Link Protection Introdcution
6- MPLS-TE Fast ReRoute - Link Protection Configuration
7- MPLS-TE Fast ReRoute - Link Protection Verification
8- MPLS-TE Fast ReRoute Next-hop (NHOP) bypass tunnel Introduction
MPLS TE Node Protection with FRR39:53
1- MPLS-TE Fast ReRoute [FRR] Link Protection vs. Node Protection
2- Session Flag for Node Protection Introduction
3- MPLS-TE Fast ReRoute - Node Protection Introdcution
4- MPLS-TE Fast ReRoute - Node Protection Configuration
5- MPLS-TE Fast ReRoute - Node Protection Verification
6- MPLS-TE Fast ReRoute Next-hop (NNHOP) bypass tunnel Introduction
MPLS TE FRR NNHOP Backup Tunnels26:40
1- MPLS-TE Fast ReRoute [FRR] - Multiple Backup Tunnel [NNHOP] Introduction
2- MPLS-TE Fast ReRoute [FRR] - Multiple Backup Tunnel [NNHOP] Configuration
3- MPLS-TE Fast ReRoute [FRR] - Multiple Backup Tunnel [NNHOP] Verification
4- MPLS-TE Fast ReRoute [FRR] - Multiple Backup Tunnel [NNHOP] Fault Tolerance
5- MPLS-TE Fast ReRoute [FRR] - Multiple Backup Tunnel [NNHOP] Load-Balancing
MPLS TE FRR NHOP & NNHOP Backup Tunnels29:49
1- MPLS-TE Fast ReRoute [FRR] - Multiple Backup Tunnel [NHOP,NNHOP] Introduction
2- MPLS-TE Fast ReRoute [FRR] - Multiple Backup Tunnel [NHOP,NNHOP] Configuration
3- MPLS-TE Fast ReRoute [FRR] - Multiple Backup Tunnel [NHOP,NNHOP] Verification
4- MPLS-TE Fast ReRoute [FRR] - Multiple Backup Tunnel [NHOP,NNHOP] Priority
MPLS TE Shared Risk Link Groups (SRLG)37:19
1- Shared Risk Link Group [SRLG] Introduction
2- Shared Risk Link Group [SRLG] Usage
3- Shared Risk Link Group [SRLG] Configuration
4- Shared Risk Link Group [SRLG] Verification
MPLS TE Backup Bandwidth & Promotion30:47
1- MPLS-TE Backup Bandwidth Introduction
2- MPLS-TE Backup Bandwidth Configuration
3- MPLS-TE Backup Bandwidth Verification
4- MPLS-TE Promotion Introduction
5- MPLS-TE Promotion Configuration
6- MPLS-TE Promotion Verification
MPLS TE Path Protection21:06
1- MPLS-TE Path Protection Introduction
2- MPLS-TE Path Protection Configuration
3- MPLS-TE Path Protection Verification

PE-to-PE VPN Tunnels with MPLS-TE36:32
1- MPLS TE Usage in MPLS L3VPN Service
2- MPLS L3VPN without Label Distribution Protocol [LDP]
3- MPLS L3VPN Configuration
4- MPLS TE Tunnel Configuration
5- Forwarding Traffic of MPLS L3VPN from MPLS TE Tunnel
VRF-Aware MPLS TE Tunnels43:04
1- MPLS-TE and MPLS VPN - VRF-to-PE Tunnel Usage
2- MPLS-TE and MPLS VPN - VRF-to-PE Tunnel Configuration
3- MPLS-TE and MPLS VPN - VRF-to-PE Tunnel Verification
4- BGP Next-Hop Configuration in VRFs
5- Forwarding Traffic of Each VRF to Different MPLS TE Tunnel
PE-to-P TE Tunnels for L3VPN32:39
1- MPLS-TE and MPLS VPN - PE-to-P Tunnel Introduction
2- MPLS-TE and MPLS VPN - PE-to-P Tunnel Configuration
3- MPLS-TE and MPLS VPN - PE-to-P Tunnel Verification
4- MP-BGP , RSVP-TE , LDP Usage in PE-to-P Tunnel
5- Forwarding Traffic of MPLS L3VPN from MPLS TE Tunnel
PE-to-P TE Tunnels with Targeted LDP20:26
1- MPLS-TE and MPLS VPN - PE-to-P Targeted Tunnel Introduction
2- MPLS-TE and MPLS VPN - PE-to-P Targeted Tunnel Configuration
3- MPLS-TE and MPLS VPN - PE-to-P Targeted Tunnel Verification
4- MP-BGP , RSVP-TE , LDP Usage in PE-to-P Tunnel
5- Forwarding Traffic of MPLS L3VPN from MPLS TE Tunnel

MPLS TE Inter-Area Tunnels with OSPF29:35
1- MPLS-TE Inter-Area TE Tunnel [ OSPF ] Restriction
2- MPLS-TE Inter-Area TE Tunnel [ OSPF ] Usage
3- MPLS-TE Inter-Area TE Tunnel [ OSPF ] Configuration
4- MPLS-TE Inter-Area TE Tunnel [ OSPF ] Verification
5- MPLS-TE Inter-Area TE Tunnel [ OSPF ] Concepts
MPLS TE Inter-Area Tunnels with IS-IS16:47
1- MPLS-TE Inter-Area TE Tunnel [ IS-IS ] Restriction
2- MPLS-TE Inter-Area TE Tunnel [ IS-IS ] Usage
3- MPLS-TE Inter-Area TE Tunnel [ IS-IS ] Configuration
4- MPLS-TE Inter-Area TE Tunnel [ IS-IS ] Verification
5- MPLS-TE Inter-Area TE Tunnel [ IS-IS ] Concepts

Requirements

CCNA , CCNP Route 300-101 or ENARSI 300-410 , MPLS Fundamentals , QoS Fundamentals

Description

Unlock the power of network optimization with our MPLS Traffic Engineering (TE) course! If you're looking to advance your career and take your networking skills to the next level, mastering MPLS TE is the key to becoming an indispensable asset in today’s highly competitive tech landscape.

MPLS TE is more than just a skill—it's a game changer for network professionals who want to drive efficiency, scalability, and performance in modern networks. As networks become increasingly complex and data-heavy, businesses demand advanced solutions to manage traffic, prioritize critical applications, and ensure that their infrastructure can handle the load. That’s where MPLS TE steps in, enabling you to take complete control over network traffic and optimize data flow like never before.

Imagine being able to design, configure, and manage networks with the confidence that they will deliver peak performance, reduce congestion, and increase resiliency. With MPLS TE, you can guarantee that your network is running at its full potential, providing seamless service to users and applications. The skills you’ll gain in this course will empower you to make intelligent decisions about bandwidth allocation, traffic prioritization, and fault tolerance, all of which are crucial in today’s fast-paced business environment.

Take your networking career to new heights by mastering a critical technology that’s in high demand. Organizations are actively seeking professionals who can drive network performance, and MPLS TE expertise sets you apart as a leader in the industry. Whether you're aiming for roles like network engineer, systems architect, or consultant, this course is your ticket to success. Don't miss out on the opportunity to make your mark in the world of high-performance networks—enroll today and become a traffic engineering expert!

Who this course is for:

MPLS VPN and MPLS TE designers and architect, Pre- and post-sales technical support engineers, testers, and anyone else involved in validating and verifying advanced MPLS services (QoS, transport, security) in the Service Provider backbones.

Complete MPLS Traffic Engineering Training by Arash Deljoo

What you'll learn

Explore related topics

Course content

MPLS TE Foundation2 lectures • 59min

MPLS TE Features & Configuration30 lectures • 20hr 52min

MPLS-TE Fast ReRoute (FRR)7 lectures • 4hr 41min

MPLS TE and MPLS VPN4 lectures • 2hr 13min

MPLS TE Inter Area Tunnel2 lectures • 46min

Requirements

Description

Who this course is for: