The Implementing and Operating Cisco Service Provider Network Core Technologies (SPCOR) course teaches you how to configure, verify, troubleshoot, and optimize next-generation, Service Provider IP network infrastructures. It provides a deep dive into Service Provider technologies including core architecture, services, networking, automation, quality of services, security, and network assurance.
Please note that this course is a combination of Instructor-Led and Self-Paced Study – 5 days in the classroom and approx 3 days of self study. The self-study content will be provided as part of the digital courseware that you will recieve at the beginning of the course and should be part of your preparation for the exam.
TARGET AUDIENCE:
Individuals looking to verify, troubleshoot and optmize next-generation, Service Provider IP network infrastructures.
COURSE PREREQUISITES:
Attendees should meet the following prerequisites:
• Intermediate knowledge of Cisco IOS or IOS XE
• Familiarity with Cisco IOS or IOS XE and Cisco IOS XR Software configuration
• Knowledge of IPv4 and IPv6 TCP/IP networking
• Intermediate knowledge of IP routing protocols
• Understanding of MPLS technologies
• Familiarity with VPN technologies
COURSE CONTENT:
Describing Service Provider Network Architectures (Self-Study)
• Service Provider Core Architectures
• MPLS Introduction
• Unified MPLS
• Segment Routing Introduction
• Network Transport Technologies
• Ethernet OAM Overview
• ERP Overview
• RAN Introduction
• Evolved Packet Core
• 5G Networks Introduction
Describing Cisco IOS Software Architectures
• Cisco IOS Software Introduction
• Cisco IOS XE Software Introduction
• Cisco IOS XR Architecture
• Cisco IOS XR Software Introduction
• Cisco IOS XR 64-Bit Operational Enhancements
• Cisco IOS XR Container and VM Architecture
Implementing OSPF
• OSPF Introduction
• OSPF Routing
• OSPF Link-State Database
• OSPF Operation
• OSPF Adjacencies and Modes
• OSPF Implementation
• Multiarea OSPF
• OSPFv3 Implementation
• Basic OSPF Troubleshooting
Implementing IS-IS
• IS-IS Introduction
• Integrated IS-IS Routing
• IS-IS Operation
• IS-IS Link-State Database
• Integrated IS-IS for IPv6
• IS-IS Configuration for IPv4
• IS-IS Configuration for IPv6
• Basic IS-IS Troubleshooting
Implementing BGP
• BGP Introduction
• BGP in Customer Connections
• BGP Routing
• BGP Implementation
• BGP Path Selection
• Weight and Local Preferenc
• AS Path Prepending and MEDs
• BGP Communities
• Route Redistribution Introduction
• Redistribution Implementation
• Basic BGP Troubleshooting
Implementing Route Maps and RPL
• Routing Protocol Tools Overview
• Prefix Lists and AS Path Access Lists
• Route Map Introduction
• RPL Introduction
• RPL Parameters and Parameterization
• RPL Implementation
Transitioning to IPv6
• Transitioning from IPv4 to IPv6
• Translation Mechanisms
• IPv6 Tunneling Mechanisms
Implementing High Availability in Networking
• Cisco Nonstop Forwarding Overview
• Bidirectional Forwarding Detection Support
• Link Aggregation
Implementing MPLS
• MPLS Architecture
• MPLS Applications
• LDP Introduction
• MPLS Forwarding Introduction
• MPLS Forwarding Operation
• MPLS Configuration
• LDP Advanced Configuration
• MPLS Monitoring
• MPLS Troubleshooting
• Unified MPLS Architecture
Implementing Cisco MPLS Traffic Engineering
• Traffic Engineering Concepts
• Cisco MPLS TE Introduction
• Cisco MPLS TE Operation
• Constraint-Based Path Computation
• Cisco MPLS TE Tunnel Attributes
• Traffic Steering
• Cisco MPLS TE Implementation
• Protection of Cisco MPLS TE Traffic
Describing Segment Routing
• Segment Routing Concepts
• SR IGP Control Plane Overview
• Segment Types
• TI-LFA Fundamentals
• Segment Routing TE Overview
• PCE-PCC Architecture
Describing VPN Services
• VPN Introduction
• MPLS VPN Architecture
• MPLS VPN Routing
• Interdomain MPLS VPN Solutions
• CSC Overview
• Multicast VPN Overview
• EVPN Introduction
• EVPN Terminology and Concepts
Configuring L2VPN Services
• Layer 2 VPN Introduction
• MPLS Layer 2 VPN Types
• EoMPLS Configuration
• VPLS Configuration
Configuring L3VPN Services
• MPLS L3VPN Backbone Implementation
• VRF Configuration
• MP-BGP Configuration
• Basic PE-CE Routing Implementation
• OSPF as PE-CE Protocol
• BGP as PE-CE Protocol
• MPLS L3VPN Shared Services
• Internet Access in MPLS L3VPN
Implementing Multicast
• Multicast Overview
• Multicast Service Model
• Multicast Protocols
• PIM-SM Introduction
• Dynamic RP Mechanisms
• PIM-SM Enhancements Overview
• Interdomain Multicast Routing
• IPv6 Multicast Implementation
Describing QoS Architecture
• QoS Introduction
• Models for Implementing QoS
• QoS Trust Boundaries
• MPLS QoS Introduction
• Cisco MPLS TE QoS
Implementing QoS
• QoS Mechanisms
• QoS Implementation
• Congestion Management
• Congestion Avoidance Implementation
• Traffic Policing and Shaping
Implementing Control Plane Security
• Control Plane Protection Overview
• LDP Security Implementation
• IGP Control Plane Security
• BGP Security Implementation
• BGP FlowSpec Implementation
Implementing Management Plane Security
• Management Plane Security Overview
• AAA Implementation
• REST API Security
Implementing Data Plane Security
• ACL Implementation
• uRPF Implementation
• RTBH Filtering Implementation
Introducing Network Programmability
• Network Programmability Introduction
• Network APIs and Protocols Introduction
• YANG Introduction
• YANG Data Types
• XPath Overview
• Basic YANG Statements
• Pyang Tool
Implementing Automation and Assurance
• NETCONF Overview
• RESTCONF Overview
• gNMI Overview
• Model Driven Telemetry Overview
• NetFlow Overview
• SNMP Overview
Introducing Cisco NSO
• Logical Architecture
• Components
• Orchestration Use Cases
• Packages
• Mapping Logic
• Network Element Drivers
Implementing Virtualization in Service Provider Environments
• NFV Infrastructure
• OpenStack Introduction
Labs
• Deploy Cisco IOS XR and IOS XE Basic Device Configuration
• Implement OSPF Routing
• Implement Integrated IS-IS Routing
• Implement Basic BGP Routing
• Filter BGP Prefixes Using RPL
• Implement MPLS in the Service Provider Core
• Implement Cisco MPLS Traffic Engineering (TE)
• Implement Segment Routing
• Implement Ethernet over MPLS (EoMPLS)
• Implement MPLS L3VPN
• Implement BGP Security
• Implement Remotely Triggered Black Hole (RTBH) Filtering
COURSE OBJECTIVE:
After completing this course you should be able to:
• Describe the Service Provider network architectures, concepts, and transport technologies
• Describe the Cisco IOS software architectures, main IOS types, and their differences
• Implement OSPF in the Service Provider networ
• Implement Integrated IS-IS in the Service Provider network
• Implement BGP routing in Service Provider environments
• Implement route maps and routing policy language
• Describe IPv6 transition mechanisms used in the Service Provider networks
• Implement high-availability mechanisms in Cisco IOS XR software
• Implement traffic engineering in modern Service Provider networks for optimal resource utilization
• Describe segment routing and segment routing traffic engineering concepts
• Describe the VPN technologies used in the Service Provider environments
• Configure and verify MPLS L2VPN in Service Provider environments
• Configure and verify MPLS L3VPN in Service Provider environments
• Implement IP multicast services
• Describe the QoS architecture and QoS benefits for SP networks
• Implement QoS in Service Provider environments
• Implement control plane security in Cisco devices
• Implement management plane security in Cisco devices
• Implement data plane security in Cisco devices
• Describe the YANG data modeling languag
• Implement automation and assurance tools and protocols
• Describe the role of Cisco NSO in Service Provider environments
• Implement virtualization technologies in Service Provider environments
FOLLOW ON COURSES: