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JNCIP-SP(网络高级专员-电信运营商科目)
         
课程介绍
JNCIP-SP(网络高级专员-电信运营商科目)=高级Junos 服务提供商路由(AJSPR)+Junos 服务等级(JCOS)+Junos 组播路由(JMR)+Junos MPLS和VPN(JMV)
1、Advanced Junos Service Provider Routing (AJSPR)
    This four-day course is designed to provide students with detailed coverage of OSPF, IS-IS, BGP, and routing policy. Through demonstrations and hands-on labs, students will gain experience in configuring and monitoring the Junos operating system and in monitoring device and protocol operations.
    This course uses Juniper Networks MX Series 3D Universal Edge Routers for the hands-on component, but the lab environment does not preclude the course from being applicable to other Juniper hardware platforms running the Junos OS. This course is based on the Junos OS Release 12.3R3.4.
2、Junos Class of Service (JCOS)
    This two-day course provides students with advanced class-of-service (CoS) knowledge and configuration examples. The course begins with an overview of CoS before going into classification, policing, scheduling, and rewriting. The course then covers class-based forwarding and finishes with a case study. This course is based on the Junos operating system Release 12.3R3.4.
    Through demonstrations and hands-on labs, students will gain experience in configuring and verifying Junos CoS features.
3、Junos Multicast Routing (JMR)
    This two-day course is designed to provide students with detailed coverage of multicast protocols including Internet Group Management Protocol (IGMP), Protocol Independent Multicast–Dense Mode (PIM-DM), Protocol Independent Multicast–Sparse Mode (PIM-SM), Bidirectional PIM, and Multicast Source Discovery Protocol (MSDP).
    Through demonstrations and hands-on labs, students will gain experience in configuring and monitoring the Junos operating system and monitoring device and protocol operations. This course uses Juniper Networks MX Series 3D Universal Edge Routers for the hands-on component, but the lab environment does not preclude the course from being applicable to other Juniper hardware platforms running the Junos OS.
    This course is based on the Junos OS Release 13.2R1.7.
4、Junos MPLS and VPNs (JMV)
    This five-day course is designed to provide students with MPLS-based virtual private network (VPN) knowledge and configuration examples. The course includes an overview of MPLS concepts such as control and forwarding plane, RSVP Traffic Engineering, LDP, Layer 3 VPNs, BGP Layer 2 VPNs, LDP Layer 2 Circuits, and virtual private LAN service (VPLS), carrier-of-carrier VPNs. This course also covers Junos operating system-specific implementations of Layer 2 control instances and active interface for VPLS. This course is based on the Junos OS Release 12.3R2.5.
    Through demonstrations and hands-on labs, students will gain experience in configuring and monitoring the Junos OS and in device operations.
培训目标:
授课对象
 1、Advanced Junos Service Provider Routing (AJSPR)
    This course benefits individuals responsible for implementing, monitoring, and troubleshooting Layer 3 components of a service provider’s network.
 2、Junos Class of Service (JCOS)
    This course benefits individuals responsible for configuring and monitoring devices running the Junos OS, especially those in a service provider environment. It also benefits individuals responsible for designing networks containing devices running the Junos OS.
3、Junos Multicast Routing (JMR)
    This course benefits individuals responsible for implementing, monitoring, and troubleshooting multicast components in a service provider’s network.
4、Junos MPLS and VPNs (JMV)
    This course benefits individuals responsible for configuring and monitoring devices running the Junos OS.
预备知识
 1、Advanced Junos Service Provider Routing (AJSPR)
 Students should have intermediate-level networking knowledge and an understanding of the Open Systems Interconnection (OSI) model and the TCP/IP protocol suite. Students should also attend the Introduction to the Junos Operating System (IJOS), Junos Routing Essentials (JRE), and Junos Intermediate Routing (JIR) courses prior to attending this class.
 2、Junos Class of Service (JCOS)
 Students should attend the Introduction to the Junos Operating System (IJOS) course, the Junos Routing Essentials (JRE) course, and the Junos Intermediate Routing (JIR) course, or have equivalent experience prior to attending this class. General knowledge of CoS concepts is also helpful.
 3、Junos Multicast Routing (JMR)
 Students should have basic networking knowledge and an understanding of the Open Systems Interconnection (OSI) model and the TCP/IP protocol suite. Students should also have working knowledge of security policies.
 Students should also attend the Introduction to the Junos Operating System (IJOS), Junos Routing Essentials (JRE), and Junos Intermediate Routing (JIR) courses prior to attending this class.
 4、Junos MPLS and VPNs (JMV)
 Students should have intermediate-level networking knowledge and an understanding of the Open Systems Interconnection (OSI) model and the TCP/IP protocol suite. Students should also have familiarity with the Protocol Independent Multicast-Sparse Mode (PIM-SM) protocol. Students should also attend the "Introduction to the Junos Operating System (IJOS)", "Junos Routing Essentials (JRE)", "Junos Service Provider Switching (JSPX)", and "Junos Intermediate Routing (JIR)" courses prior to attending this class.
培训目标
1、 Advanced Junos Service Provider Routing (AJSPR)
After successfully completing this course, you should be able to:
1、Describe the various OSPF link-state advertisement (LSA) types.
2、Explain the flooding of LSAs in an OSPF network.
3、Describe the shortest-path-first (SPF) algorithm.
4、List key differences between OSPFv2 and OSPFv3.
5、Describe OSPF area types and operations.
6、Configure various OSPF area types.
7、Summarize and restrict routes.
8、Identify some scenarios in a service provider network that can be solved using routing policy or specific configuration options.
9、Use routing policy and specific configuration options to implement solutions for various scenarios.
10、Explain the concepts and operation of IS-IS.
11、Describe various IS-IS link-state protocol data unit (LSP) types.
12、List IS-IS adjacency rules and troubleshoot common adjacency issues.
13、Configure and monitor IS-IS.
14、Display and interpret the link-state database (LSDB).
15、Perform advanced IS-IS configuration options.
16、Implement IS-IS routing policy.
17、Explain the default operation in multiarea IS-IS.
18、Describe IS-IS address summarization methods.
19、Configure and monitor a multiarea IS-IS network.
20、Describe basic BGP operation.
21、List common BGP attributes.
22、Explain the route selection process for BGP.
23、Describe how to alter the route selection process.
24、Configure some advanced options for BGP peers.
25、Describe various BGP attributes in detail and explain the operation of those attributes.
26、Manipulate BGP attributes using routing policy.
27、Explain the causes for route instability.
28、Describe the effect of damping on BGP routing.
29、Explain the default behavior of damping on links.
30、Control damping using routing policy.
31、View damped routes using command-line interface (CLI) commands.
32、Describe the operation of BGP route reflection.
33、Configure a route reflector.
34、Describe the operation of a BGP confederation.
35、Configure confederations.
36、Describe peering relationships in a confederation.
2、Junos Class of Service (JCOS)
After successfully completing this course, you should be able to:
1、Understand the history and evolution of CoS.
2、Identify the CoS fields in various packet headers.
3、List the CoS processing stages on devices running the Junos OS.
4、Identify the default CoS settings on devices running the Junos OS.
5、Configure and verify behavior aggregate (BA) and multifield (MF) classification.
6、Configure and verify two-color and tricolor marking policers.
7、Configure and verify schedulers and their components.
8、Configure and verify the multiple levels of hierarchical schedulers.
9、Configure and verify packet header rewriting.
10、Configure and verify class-based forwarding.
11、Create a CoS configuration based on a set of design requirements.
3、Junos Multicast Routing (JMR)
After successfully completing this course, you should be able to:
1、Describe IP multicast traffic flow .
2、Identify the components of IP multicast.
3、Explain how IP multicast addressing works.
4、Describe the need for reverse path forwarding (RPF) in multicast.
5、Explain the role of IGMP and describe the available IGMP versions.
6、Configure and monitor IGMP.
7、Identify common multicast routing protocols.
8、Explain the differences between dense-mode and sparse-mode protocols.
9、Describe rendezvous point (RP) discovery options.
10、Describe bidirectional PIM.
11、Configure and monitor rendezvous point discovery mechanisms.
12、Configure bidirectional PIM sparse mode.
13、Explain the purpose and operation of MSDP.
14、Describe the usage of MSDP within a single PIM domain with anycast-RP.
15、Describe the usage of MSDP across multiple PIM domains.
16、Configure and monitor MSDP.
17、Compare the any-source multicast (ASM) and source-specific multicast (SSM) service models.
18、Describe the basic requirements, benefits, and caveats of SSM.
19、List the address ranges used for SSM.
20、Illustrate the role of IGMPv3 and PIM-SM in an SSM implementation.
21、Configure and monitor SSM.
22、Describe the default PIM sparse mode information distribution.
23、Explain how routing policies control IGMP joins.
24、Explain how routing policies alter PIM protocol message flow.
25、Identify the role of a policy in controlling MSDP message advertisement.
26、Explain how you can use a policy to scope multicast groups.
27、Configure and monitor PIM dense mode and PIM sparse mode.
28、Describe IPv6 multicast addresses.
29、Describe IPv6 multicast scoping.
30、Compare IPv6 Multicast Listener Discovery (MLD) versions with IPv4’s IGMP protocol versions.
31、Describe IPv6 SSM.
4、Junos MPLS and VPNs (JMV)
 After successfully completing this course, you should be able to:
 1、Explain common terms relating to MPLS.
 2、Explain routers and the way they forward MPLS packets.
 3、Explain packet flow and handling through a label-switched path (LSP).
 4、Describe the configuration and verification of MPLS forwarding.
 5、Understand the information in the Label Information Base.
 6、Explain the two label distribution protocols used by the Junos OS.
 7、Configure and troubleshoot RSVP-signaled and LDP-signaled LSPs.
 8、Explain the constraints of both RSVP and LDP.
 9、Explain the path selection process of RSVP without the use of the Constrained Shortest Path First (CSPF) algorithm.
 10、Explain the Interior Gateway Protocol (IGP) extensions used to build the Traffic Engineering Database (TED).
 11、Describe the CSPF algorithm and its path selection process.
 12、Describe administrative groups and how they can be used to influence path selection.
 13、Describe the default traffic protection behavior of RSVP-Signaled LSPs.
 14、Explain the use of primary and secondary LSPs.
 15、Explain LSP priority and preemption.
 16、Describe the operation and configuration of fast reroute.
 17、Describe the operation and configuration of link and node protection.
 18、Describe the LSP optimization options.
 19、Describe the behavior of fate sharing.
 20、Describe how SRLG changes the CSPF algorithm when computing the path of a secondary LSP.
 21、Explain how extended admin groups can be used to influence path selection.
 22、Explain the purpose of several miscellaneous MPLS features.
 23、Explain the definition of the term virtual private network.
 24、Describe the differences between provider-provisioned and customer-provisioned VPNs.
 25、Describe the differences between Layer 2 VPNs and Layer 3 VPNs.
 26、Explain the features of provider-provisioned VPNs supported by the Junos OS.
 27、Explain the roles of Provider (P) routers, Provider Edge (PE) routers, and Customer Edge (CE) routers.
 28、Describe the VPN-IPv4 address formats.
 29、Describe the route distinguisher use and formats.
 30、Explain the RFC 4364 control flow.
 31、Create a routing instance, assign interfaces, create routes, and import and export routes within the routing instance using route distinguishers and route targets.
 32、Explain the purpose of BGP extended communities and how to configure and use these communities.
 33、Describe the steps necessary for proper operation of a PE to CE dynamic routing protocol.
 34、Configure a simple Layer 3 VPN using a dynamic CE-PE routing protocol.
 35、Describe the routing-instance switch.
 36、Explain the issues with the support of traffic originating on multi-access VPN routing and forwarding table (VRF table) interfaces.
 37、Use operational commands to view Layer 3 VPN control exchanges.
 38、Use operational commands to display Layer 3 VPN VRF tables.
 39、Monitor and troubleshoot PE-CE routing protocols.
 40、Describe the four ways to improve Layer 3 VPN scaling.
 41、Describe the three methods for providing Layer 3 VPN customers with Internet access.
 42、Describe how the auto-export command and routing table groups can be used to support communications between sites attached to a common PE router.
 43、Describe the flow of control and data traffic in a hub-and-spoke topology.
 44、Describe the various Layer 3 VPN class-of-service (CoS) mechanisms supported by the Junos OS.
 45、Explain the Junos OS support for generic routing encapsulation (GRE) and IP Security (IPsec) tunnels in Layer 3 VPNs.
 46、Describe the purpose and features of a BGP Layer 2 VPN.
 47、Describe the roles of a CE device, PE router, and P router in a BGP Layer 2 VPN.
 48、Explain the flow of control traffic and data traffic for a BGP Layer 2 VPN.
 49、Configure a BGP Layer 2 VPN and describe the benefits and requirements of over-provisioning.
 50、Monitor and troubleshoot a BGP Layer 2 VPN.
 51、Explain the BGP Layer 2 VPN scaling mechanisms and route reflection.
 52、Describe the Junos OS BGP Layer 2 VPN CoS support.
 53、Describe the flow of control and data traffic for an LDP Layer 2 circuit.
 54、Configure an LDP Layer 2 circuit.
 55、Monitor and troubleshoot an LDP Layer 2 circuit.
 56、Describe and configure circuit cross-connect (CCC) MPLS interface tunneling.
 57、Describe the difference between Layer 2 MPLS VPNs and VPLS.
 58、Explain the purpose of the PE device, the CE device, and the P device.
 59、Explain the provisioning of CE and PE routers.
 60、Describe the signaling process of VPLS.
 61、Describe the learning and forwarding process of VPLS.
 62、Describe the potential loops in a VPLS environment.
 63、Configure BGP and LDP VPLS.
 64、Troubleshoot VPLS.
 65、Describe the Junos OS support for carrier-of-carriers.
 66、Describe the Junos OS support for interprovider VPNs.
课程大纲:
1、 Advanced Junos Service Provider Routing (AJSPR)
Chapter 1: Course Introduction
Chapter 2: OSPF
 OSPFv2 Review
 Link-State Advertisements
 Protocol Operations
 OSPF Authentication
 Lab: OSPF Multiarea Networks
Chapter 3: OSPF Areas
 Review of OSPF Areas
 Stub Area Operation
 Stub Area Configuration
 NSSA Operation
 NSSA Configuration
 Route Summarization
 Lab: OSPF Route Summarization
Chapter 4: OSPF Case Studies and Solutions
 Virtual Links
 OSPF Multiarea Adjacencies
 External Reachability
 Lab: Advanced OSPF Options and Routing Policy
Chapter 5: IS-IS
 Overview of IS-IS
 IS-IS PDUs
 Neighbors and Adjacencies
 Configuring and Monitoring IS-IS
 Lab: IS-IS Configuration and Monitoring
Chapter 6: Advanced IS-IS Operations and Configuration Options
 IS-IS Operations
 IS-IS Configuration Options
 IS-IS Routing Policy
 Lab: Advanced IS-IS Configuration Options and Routing Policy
Chapter 7: Multilevel IS-IS Networks
 Level 1 and Level 2 Operations
 Multilevel Configuration
 Lab: Configuring a Multilevel IS-IS Network
Chapter 8: BGP
 Review of BGP
 BGP Operations
 BGP Path Selection and Options
 Configuration Options
 Lab: BGP and BGP Attributes
Chapter 9: BGP Attributes and Policy—Part 1
 BGP Policy
 Next Hop
 Origin and MED
 AS Path
 Lab: BGP Attributes: Next Hop, Origin, MED, and AS Path
Chapter 10: BGP Attributes and Policy—Part 2
 Local Preference
 Communities
 Lab: BGP Attributes: Local Preference and Communities
Chapter 11: Route Reflection and Confederations
 Route Reflection Operation
 Configuration and Routing Knowledge
 BGP Confederations
 Lab: Scaling BGP
Chapter 12: BGP Route Damping
 Route Flap and Damping Overview
 Route Damping Parameters
 Configuring and Monitoring Route Damping
 Lab: BGP Route Damping
2、 Junos Class of Service (JCOS)
Chapter 1: Course Introduction
Chapter 2: CoS Overview
 CoS History and Evolution
 CoS and DiffServe
 CoS Fields in Packet Headers
 CoS Processing
Chapter 3: Packet Classification
 Classification Overview
 Forwarding Classes and Packet Loss Priority
 Fixed Classification
 Multifield Classification
 Behavior Aggregate Classification
 Lab 1: Configuring Packet Classification
Chapter 4: Policing
 Policing Overview
 Single-Rate Two-Color Policer
 Tricolor Marking Policers
 Hierarchical Policers
 Application—Directly on an Interface
 Application—Within a Firewall Filter
 Lab 2: Configuring Policers
Chapter 5: Scheduling
 Scheduling Overview
 Transmission Rate
 Queue Priority
 Delay Buffers
 Drop Profiles and Drop Profile Maps
 Scheduling Configuration
 Lab 3: Configuring Schedulers
Chapter 6: Hierarchical Scheduling
 Hierarchical Scheduling Overview
 Scheduler Modes
 Hierarchical Scheduling Levels
 Throughput Example
 Remaining Traffic
 Queue Properties in a Hierarchical Scheduling Context
 Putting It All Together
 Lab 4: Configuring Hierarchical Schedulers
Chapter 7: Rewrite Rules
 Packet Header Rewrite Overview
 Rewrite Rules and Tables
 Rewrite Combinations
 Lab 5: Configuring Rewrite Rules
Chapter 8: CoS-Based Forwarding
 CBF Overview
 CBF Configuration
 Lab 6: Configuring CBF
Chapter 9: Case Study
 VOIP Case Study Overview
 VOIP Case Study: Ingress Node
 VOIP Case Study: Transit and Egress Nodes
Appendix A: CoS Processing on M Series, T Series, and MX Series Devices
 M Series and T Series Architecture
 M Series and T Series CoS Packet Handling
 IQ2 PIC CoS Packet Handling
 MX Series (DPC and MPC/MIC) Architecture and CoS Packet Handling
3、 Junos Multicast Routing (JMR)
Chapter 1: Course Introduction
Chapter 2: Introduction to Multicast
 Overview of Multicast
 Multicast Addresses
 Reverse Path Forwarding
 Internet Group Management Protocol
 Lab 1: Implementing a Baseline Network
Chapter 3: Multicast Routing Protocols
 Overview of Multicast Routing Protocols
 PIM Dense Mode Operation
 Lab 2: PIM Dense Mode
 PIM Sparse Mode Operation
 Lab 3: PIM Sparse Mode and RP Discovery
Chapter 4: MSDP
 MSDP
 Anycast-RP
 Lab 4: Implementing MSDP and Anycast-RP
Chapter 5: Source-Specific Multicast
 Overview of SSM Operation
 SSM Addresses
 IGMPv3 and SSM
 PIM-SM and SSM
 SSM Case Study
 Lab 5: Source-Specific Multicast
Chapter 6: Multicast and Policy
 Multicast and Policy Overview
 Controlling PIM Join and Register Messages
 Controlling BSR Messages
 Controlling MSDP SA Messages
 Implementing Multicast Scoping
 Lab 6: Multicast and Policy
Appendix A: IPv6 Multicast
 IPv6 Multicast Addresses
 IPv6 MLD
 IPv6 ASM Options
 IPv6 SSM Addresses
4、 Junos MPLS and VPNs (JMV)
Chapter 1: Course Introduction
Chapter 2: MPLS Fundamentals
 MPLS Foundation
 Terminology
 MPLS Configuration
 MPLS Packet Forwarding
 Lab: MPLS Fundamentals
Chapter 3: Label Distribution Protocols
 Label Distribution Protocols
 RSVP
 LDP
 Lab: Label Distribution Protocols
Chapter 4: Constrained Shortest Path First
 RSVP Behavior Without CSPF
 CSPF Algorithm
 CSPF Tie Breaking
 Administrative Groups
 Interarea Traffic Engineered LSPs
 Lab: CSPF
Chapter 5: Traffic Protection and LSP Optimization
 Default Traffic Protection Behavior
 Primary and Secondary LSPs
 Fast Reroute
 Bypass LSPs
 LSP Optimization
 Lab: Traffic Protection
Chapter 6: Fate Sharing
 Junos OS Fate Sharing
 SRLG
 Extended Admin Groups
 Lab: Fate Sharing
Chapter 7: Miscellaneous MPLS Features
 Routing Table Integration
 Forwarding Adjacencies
 Policy Control over LSP Selection
 LSP Metrics
 Automatic Bandwidth
 TTL Handling
 Explicit Null Configuration
 MPLS Pings
 Lab: Miscellaneous MPLS Features
Chapter 8: VPN Review
 Overview of VPNs
 CPE-Based VPNs
 Provider-Provisioned
Chapter 9: Layer 3 VPNs
 Layer 3 VPN Terminology
 VPN-IPv4 Address Structure
 Operational Characteristics
 Lab: VPN Baseline Configuration
Chapter 10: Basic Layer 3 VPN Configuration
 Preliminary Steps
 PE Router Configuration
 Lab: Layer 3 VPN with Static and BGP Routing
Chapter 11: Troubleshooting Layer 3 VPNs
 A Layered Approach
 The Routing-Instance Switch
 PE-Based and CE-Based Traceroutes
 Viewing VRF Tables and PE-PE Signaling Flow
 Monitoring PE-CE Routing Protocols
Chapter 12: Layer 3 VPN Scaling and Internet Access
 Scaling Layer 3 VPNs
 Public Internet Access Options
 Lab: Route Reflection and Internet Access
Chapter 13: Layer 3 VPNs—Advanced Topics
 Exchanging Routes Between VRF Tables
 Hub-and-Spoke Topologies
 Layer 3 VPN CoS Options
 Layer 3 VPN and GRE Tunneling Integration
 Layer 3 VPN and IPsec Integration
 Lab: GRE Tunnel Integration
Chapter 14: BGP Layer 2 VPNs
 Overview of Layer 2 Provider-Provisioned VPNs
 BGP Layer 2 VPN Operational Model: Control Plane
 BGP Layer 2 VPN Operational Model: Data Plane
 Preliminary BGP Layer 2 VPN Configuration
 BGP Layer 2 Configuration
 Monitoring and Troubleshooting BGP Layer 2 VPNs
 Lab: BGP Layer 2 VPNs
Chapter 15: Layer 2 VPN Scaling and CoS
 Review of VPN Scaling Mechanisms
 Layer 2 VPNs and CoS
Chapter 16: LDP Layer 2 Circuits
 LDP Layer 2 Circuit Operation
 LDP Layer 2 Circuit Configuration
 LDP Layer 2 Circuit Monitoring and Troubleshooting
 Circuit Cross-Connect
 Lab: Circuit Cross-Connect and LDP Layer 2 Circuits
Chapter 17: Virtual Private LAN Services
 Layer 2 MPLS VPNs Versus VPLS
 BGP VPLS Control Plane
 BGP VPLS Data Plane
 Learning and Forwarding Process
 Loops
Chapter 18: VPLS Configuration
 VPLS Configuration
 VPLS Troubleshooting
 Lab: VPLS
Chapter 19: Interprovider VPNs
 Hierarchical VPN Models
 Junos Support of Carrier-of-Carriers Model
 Junos Support of Carrier-of-Carrier VPN Applications
 Lab: Carrier-of-Carrier VPNs
Appendix A: Multicast VPNs
 Multicast VPN Overview
 Next-Generation MVPN Operation
 Configuration
 Monitoring
 Lab: MVPNs
开课时间:

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费用:20000 元
授课形式:脱产班
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