Oreilly – CCNP and CCIE Enterprise Core ENCOR 350-401, 2nd Edition 2023-8

Oreilly – CCNP and CCIE Enterprise Core ENCOR 350-401, 2nd Edition 2023-8 Downloadly IRSpace

Apr 18, 2025 - 04:53 Updated: Apr 21, 2025 - 11:13

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Oreilly – CCNP and CCIE Enterprise Core ENCOR 350-401, 2nd Edition 2023-8

CCNP and CCIE Enterprise Core ENCOR 350-401 2nd Edition Comprehensive Video Course is a complete training course that has been adapted to the ENCORE 1.1 syllabus with the following changes: Routing topics include EIGRP, policy-based routing, and newer IOS XE CLI commands. The Quality of Service (QoS) course has expanded from just theory to now include Modular QoS commands so students can understand actual QoS settings. This course also has a course on network architecture. Wireless tutorials have been updated for compatibility with Cisco IOS XE-based wireless network controllers and include advanced security features such as 802.1x and EAPOL, wireless segmentation capabilities, and client connection troubleshooting via GUI.

Expert network engineers Brad Edgeworth, Brad Ryopulov, and Vineet Jain explain the full range of Cisco ENCOR exam topics, including dual architecture (IPv4 and IPv6), virtualization, infrastructure, network reliability, security, and automation. This unique product contains 25 lessons covering six exam areas, giving you the knowledge and skills to configure, troubleshoot, secure, and automate enterprise wired and wireless networks. This course combines video training with live CLI configuration and troubleshooting demonstrations, providing hands-on lab activities. Practicing the lessons you’ve learned with hands-on labs helps reinforce the concepts taught. This course includes instructor-developed Cisco Modeling Labs (CML) topology files that are associated with the lab exercises they demonstrate. This allows you to load topology files into your CML instance and follow the tutorials to make sure you understand the concepts taught.

What you will learn

Forward the package
Switch operation
Spanning Tree Protocol (STP)
EtherChannel
IP forwarding
Policy-based routing
EIGRP
OSPF and OSPFv3
BGP
Route filtering
multicast
Quality of Service (QoS)
IP services such as NTP, P2P, HSRP, VRRP and GLBP
Network Address Translation (NAT)
Network architecture
Secure access control
Infrastructure security
Principles of wireless network design
GRE, VPN, LISP and VXLAN
Cisco SD-Access
Cisco SD-WAN
virtualization
Network reliability
Network programming
Automation tools like EEM, Puppet, Chef, SaltStack and Ansible

This course is suitable for people who

They are interested in obtaining Cisco Certified Network Professional Enterprise (CCNP Enterprise) certification
Interested in participating in the CCIE Enterprise Infrastructure or Wireless lab exams
Interested in renewing CCIE Enterprise Infrastructure or Wireless certifications
They are interested in learning how to build and manage corporate wired and wireless networks

Course details

Publisher: Oreilly
Instructor: Brad Edgeworth , Brad Riapolov, Vinit Jain
Training level: beginner to advanced
Training duration: 35 hours and 38 minutes

Course headings

Introduction
CCNP and CCIE Enterprise Core ENCOR 350-401: Introduction
Lesson 1: Packet Forwarding
Learning objectives
1.1 Packet Forwarding Overview
1.2 Layer 2 Forwarding Essentials
1.3 Layer 3 Forwarding
Lesson 2: Switch Operations
Learning objectives
2.1 VLANS
2.2 Switch Port Types
2.3 VLAN Trunking Protocol (VTP)
2.4 Dynamic Trunking Protocol (DTP)
Lesson 3: Spanning Tree
Learning objectives
3.1 Introducing the Spanning Tree Protocol (STP)
3.2 Building STP Topology
3.3 Per VLAN Spanning Tree (PVST) and PVST+
3.4 STP Convergence
3.5 Rapid Spanning Tree Protocol (RSTP)
3.6 Tuning the STP Topology
3.7 Optimizing the Spanning Tree Topology
3.8 Multiple Spanning Tree Protocol (MSTP)
Lesson 4: EtherChannel Bundles
Learning objectives
4.1 Introducing EtherChannel Bundles
4.2 Static EtherChannel Bundle
4.3 Port Aggregation Protocol (PAgP)
4.4 Link Aggregation Control Protocol (LACP)
4.5 Layer 3 EtherChannel Bundles
4.6 Troubleshooting EtherChannel Bundles
4.7 Load-Balancing Traffic with EtherChannel Bundles
Lesson 5: IP Forwarding
Learning objectives
5.1 Routing Protocol Overview
5.2 Path Selection
5.3 Platform Architecture
5.4 Policy-Based Routing
5.5 Virtual Routing and Forwarding (VRF)
Lesson 6: Architecture
Learning objectives
6.1 Hierarchical LAN Design
6.2 High Availability Network Design
6.3 Enterprise Network Architect Options
Lesson 7: Enhanced Interior Gateway Routing Protocol (EIGRP)
Learning objectives
7.1 Introducing EIGRP
7.2 EIGRP Path Calculation and Metrics
7.3 EIGRP Timers and Convergence
Lesson 8: Open Shortest Path First (OSPF)
Learning objectives
8.1 Introducing OSPF
8.2 OSPF Configuration
8.3 Timers and Failure Dectection
8.4 Designated Router and Backup Designated Router
8.5 OSPF Network Types
8.6 Areas
8.7 Default Route Advertisement
8.8 Link-State Advertisements (LSA)
8.9 OSPF Path Selection
8.10 Internal Route Summarization
Lesson 9: Open Shortest Path First Version 3 (OSPFv3)
Learning objectives
9.1 Introducing OSPFv3
9.2 OSPFv3 Configuration and Verifications
Lesson 10: Border Gateway Protocol (BGP)
Learning objectives
10.1 Introducing BGP
10.2 BGP Communication
10.3 BGP Session Configuration
10.4 BGP Prefix Advertisement
10.5 BGP Route Summarization
10.6 BGP Communities
10.7 BGP Multihoming
10.8 BGP Best Path
10.9 Multiprotocol BGP for IPv6
Lesson 11: Route Manipulation
Learning objectives
11.1 Conditional Matching of Routes
11.2 Route Maps
11.3 OSPF Filtering
11.4 BGP Route Filtering
Lesson 12: Multicast
Learning objectives
12.1 Multicast Fundamentals
12.2 Multicast Addressing (L2 L3)
12.3 Internet Group Management Protocol (IGMP)
12.4 Protocol Independent Multicast (PIM)
12.5 Rendezvous Points (RP)
12.6 Multicast Packet Flow
12.7 Configuring and Verifying
Lesson 13: Quality of Service (QoS)
Learning objectives
13.1 The Need for QoS
13.2 QoS Models
13.3 Module QoS CLI (MQC)
13.4 Classification and Marking
13.5 Policing and Shaping
13.6 Congestion Management and Avoidance
Lesson 14: IP Services
Learning objectives
14.1 Network Time Protocol (NTP) Overview
14.2 Configuring and Verifying NTP
14.3 Precision Time Protocol (PTP)
14.4 Hot Standby Router Protocol (HSRP) Overview
14.5 HSRP with SSO
14.6 Virtual Router Redundancy Protocol (VRRP)
14.7 Global Load-Balancing Protocol (GLBP)
Lesson 15: Network Address Translation (NAT)
Learning objectives
15.1 Introducing NAT
15.2 Static NAT
15.3 Pooled NAT
15.4 Port Address Translation (PAT)
Lesson 16: Secure Access Control
Learning objectives
16.1 Network Security Design for Threat Defense
16.2 Next Generation Endpoint Security
16.3 Cisco Stealthwatch
16.4 Cisco ISE
16.5 802.1x
16.6 MAB
16.7 TrustSec
16.8 MACSec
Lesson 17: Infrastructure Security
Learning objectives
17.1 ACLs
17.2 Configuring and Verifying ACLs
17.3 Terminal Lines and Password Protection
17.4 AAA
17.5 ZBFW
17.6 Control Plane Policing (CoPP)
Lesson 18: Wireless
Learning objectives
18.1 Layer 1 Concepts
18.2 RF Power
18.3 RSSI
18.4 Interference Noise
18.5 SNR
18.6 Band and Channels
18.7 Wireless Device Capabilities
18.8 AP Modes and Antenna Types
18.9 Wireless LAN Topologies – Standalone
18.10 Wireless LAN Topologies – Centralized Mode
18.11 Wireless LAN Topologies – FlexConnect Mode
18.12 Wireless LAN Topologies – EWC/Mobility Express, IP Addressing, Mesh, Auto-Anchor
18.13 Access Point Discovery and Join Process
18.14 Main Principles and Use Cases for Layer 2 and Layer 3 Roaming
18.15 Configuring Wireless on Aironet Platforms
18.16 Configuring Wireless on Catalyst Platforms
18.17 Troubleshoot WLAN Configuration and Wireless Client Connectivity Issues
18.18 Troubleshoot WLAN Configuration and Wireless Client Connectivity on Catalyst Platforms
18.19 Wireless Security General Considerations
18.20 Configuring the Wireless Controller, Open Authentication, WPA2 PSK Authentication
18.21 Configuring Local EAP Authentication, External EAP Authentication, Web-Auth Authentication
18.22 Configuring and Verifying Wireless on Catalyst Platforms
18.23 Location Services and Design Considerations
18.24 Understanding Client Density in Designs
18.25 Describe Wireless Segmentation with Groups, Profiles, and Tags
Lesson 19: Overlay Tunnels
Learning objectives
19.1 Generic Routing Encapsulation (GRE) Overview
19.2 Configuring and Verifying GRE Tunnels
19.3 IPsec Fundamentals
19.4 Site-to-Site IPsec VPN Overview
19.5 Configuring and Verifying Site-to-Site IPsec VPN
19.6 LISP Fundamentals
19.7 VXLAN Fundamentals
19.8 VXLAN-EVPN Overview
Lesson 20: Cisco SD-Access Solution
Learning objectives
20.1 Introducing Cisco Software-Defined Access Solution
20.2 Cisco Software-Defined Access Control
20.3 Cisco Software-Defined Access Data Planes
20.4 Fabric Roles and Terminology
20.5 Inserting Fabric Into a Traditional Campus Network
20.6 Fabric Wireless and L2 Domain Stretch
20.7 DNA Center Demo (Design and Policy)
20.8 DNA Center Demo (DNA Center Assurance)
Lesson 21: Cisco SD-WAN Solution
Learning objectives
21.1 Cisco SD-WAN Benefits and Use Cases
21.2 Cisco SD-WAN Architecture and Components
21.3 Cisco SD-WAN Terminology and Constructs
21.4 Overlay Management Protocol (OMP)
21.5 Cisco SD-WAN Fabric Operations
21.6 Data Tunnel Connectivity
21.7 Transport Path Selection
21.8 VPN Segmentation
Lesson 22: Virtualization
Learning objectives
22.1 Server Virtualization
22.2 Network Function Virtualization (NFV)
22.3 Enterprise Network Function Virtualization (ENFV)
Lesson 23: Network Assurance
Learning objectives
23.1 Diagnose Network Problems Using Tools Such as Debugs, Conditional Debugs, trace route, ping, SNMP, and Syslog
23.2 Ping and Traceroute Commands
23.3 Debug Commands
23.4 Conditional Debug Commands
23.5 SNMP Commands
23.6 Syslog Commands
23.7 Configure and Verify Device Monitoring Using Syslog for Remote Logging
23.8 Configure and Verify NetFlow and Flexible NetFlow
23.9 Configure and Verify SPAN/RSPAN
23.10 Configure and Verify ERSPAN
23.11 Exploring the Dashboard and Design
23.12 Exporing Assurance Network Health
23.13 Exploring Assurance Client Health
23.14 Configure and Verify IP SLA
Lesson 24: Network Programmability
Learning objectives
24.1 API
24.2 Tools and Resources
24.3 Data Formats
24.4 Cisco DNA Center APIs
24.5 Cisco vManage APIs
24.6 Data Models and Supporting Protocols
24.7 Cisco DevNet
24.8 GitHub
24.9 Introduction to Python
24.10 Python Variables and Data Types
24.11 Python Data Structures
24.12 Writing Python Program Using Loops and Functions
24.13 Dealing with JSON Data in Python
24.14 Enabling NETCONF and RESTCONF on Cisco IOS-XE
Lesson 25: Automation Tools
Learning objectives
25.1 EEM
25.2 Configuring EEM
25.3 Puppet
25.4 Chef
25.5 SaltStack
25.6 Ansible
Summary
CCNP and CCIE Enterprise Core ENCOR 350-401: Summary