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CCNP Enterprise -350-401-ENCOR- Cisco Core Technologies
Ratnesh 2xCCIE #61380
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112 Students
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28 hours
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$12.99
What you’ll learn
courseImgIllustrate the hierarchical network design model and architecture using the access, distribution, and core layers
courseImgImplementation and optimization of Open Shortest Path First (OSPF)v2 and OSPFv3, including adjacencies, packet types, and areas, summarization, and route filtering for IPv4 and IPv6
courseImgDescribe the various wireless deployment models available, include autonomous Access Point (AP) deployments and cloud-based designs within the centralized Cisco Wireless LAN Controller (WLC) architecture
courseImgDefine the components and features of Cisco SD-WAN solutions, including the orchestration plane, management plane, control plane, and data plane
courseImgTroubleshoot Layer 2 connectivity using VLANs and trunking
courseImgImplementing overlay technologies such as Virtual Routing and Forwarding (VRF), Generic Routing Encapsulation (GRE), VPN, and Location Identifier Separation Protocol (LISP)
courseImgExplain the purpose, function, features, and workflow of Cisco DNA Center™ Assurance for Intent-Based Networking, for network visibility, proactive monitoring, and application experience
courseImgDescribe network programmability protocols such as Network Configuration Protocol (NETCONF) and RESTCONF
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100% online courses
Start instantly and learn at your own schedule
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Flexible Schedule
Set and maintain flexible deadlines.
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Beginner Level
No prior experience required
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Approx. 4 months to complete
Suggested 5 hours/week
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English
Subtitles: English

Requirements

  • Implementation of Enterprise LAN networks

  • Basic understanding of Enterprise routing and wireless connectivity

  • Basic understanding of Python scripting

Description

  • 1.1 Explain the different design principles used in an enterprise network

    • 1.1.a Enterprise network design such as Tier 2, Tier 3, and Fabric Capacity planning

    • 1.1.b High availability techniques such as redundancy, FHRP, and SSO

    1.2 Analyze design principles of a WLAN deployment

    • 1.2.a Wireless deployment models (centralized, distributed, controller-less, controller-based, cloud, remote branch)

    • 1.2.b Location services in a WLAN design

    1.3 Differentiate between on-premises and cloud infrastructure deployments

    1.4 Explain the working principles of the Cisco SD-WAN solution

    • 1.4.a SD-WAN control and data planes elements

    • 1.4.b Traditional WAN and SD-WAN solutions

    1.5 Explain the working principles of the Cisco SD-Access solution

    • 1.5.a SD-Access control and data planes elements

    • 1.5.b Traditional campus interoperating with SD-Access

    1.6 Describe concepts of wired and wireless QoS

    • 1.6.a QoS components

    • 1.6.b QoS policy

    1.7 Differentiate hardware and software switching mechanisms

    • 1.7.a Process and CEF

    • 1.7.b MAC address table and TCAM

    • 1.7.c FIB vs. RIB

     

  • 2.0 Virtualization

    10%

    2.1 Describe device virtualization technologies

    • 2.1.a Hypervisor type 1 and 2

    • 2.1.b Virtual machine

    • 2.1.c Virtual switching

    2.2 Configure and verify data path virtualization technologies

    • 2.2.a VRF

    • 2.2.b GRE and IPsec tunneling

    2.3 Describe network virtualization concepts

    • 2.3.a LISP

    • 2.3.b VXLAN

     

  • 3.0 Infrastructure

    30%

    3.1 Layer 2

    • 3.1.a Troubleshoot static and dynamic 802.1q trunking protocols

    • 3.1.b Troubleshoot static and dynamic EtherChannels

    • 3.1.c Configure and verify common Spanning Tree Protocols (RSTP and MST)

    3.2 Layer 3

    • 3.2.a Compare routing concepts of EIGRP and OSPF (advanced distance vector vs. linked state, load balancing, path selection, path operations, metrics)

    • 3.2.b Configure and verify simple OSPF environments, including multiple normal areas, summarization, and filtering (neighbor adjacency, point-to-point and broadcast network types, and passive interface)

    • 3.2.c Configure and verify eBGP between directly connected neighbors (best path selection algorithm and neighbor relationships)

    3.3 Wireless

    • 3.3.a Describe Layer 1 concepts, such as RF power, RSSI, SNR, interference noise, band and channels, and wireless client devices capabilities

    • 3.3.b Describe AP modes and antenna types

    • 3.3.c Describe access point discovery and join process (discovery algorithms, WLC selection process)

    • 3.3.d Describe the main principles and use cases for Layer 2 and Layer 3 roaming

    • 3.3.e Troubleshoot WLAN configuration and wireless client connectivity issues

    3.4 IP Services

    • 3.4.a Describe Network Time Protocol (NTP)

    • 3.4.b Configure and verify NAT/PAT

    • 3.4.c Configure first hop redundancy protocols, such as HSRP and VRRP

    • 3.4.d Describe multicast protocols, such as PIM and IGMP v2/v3

     

  • 4.0 Network Assurance

    10%

    4.1 Diagnose network problems using tools such as debugs, conditional debugs, trace route, ping, SNMP, and syslog

    4.2 Configure and verify device monitoring using syslog for remote logging

    4.3 Configure and verify NetFlow and Flexible NetFlow

    4.4 Configure and verify SPAN/RSPAN/ERSPAN

    4.5 Configure and verify IPSLA

    4.6 Describe Cisco DNA Center workflows to apply network configuration, monitoring, and management

    4.7 Configure and verify NETCONF and RESTCONF

  • 5.0 Security

    20%

    5.1 Configure and verify device access control

    • 5.1.a Lines and password protection

    • 5.1.b Authentication and authorization using AAA

    5.2 Configure and verify infrastructure security features

    • 5.2.a ACLs

    • 5.2.b CoPP

    5.3 Describe REST API security

    5.4 Configure and verify wireless security features

    • 5.4.a EAP

    • 5.4.b WebAuth

    • 5.4.c PSK

    5.5 Describe the components of network security design

    • 5.5.a Threat defense

    • 5.5.b Endpoint security

    • 5.5.c Next-generation firewall

    • 5.5.d TrustSec, MACsec

    • 5.5.e Network access control with 802.1X, MAB, and WebAuth

     

  • 6.0 Automation

    15%

    6.1 Interpret basic Python components and scripts

    6.2 Construct valid JSON encoded file

    6.3 Describe the high-level principles and benefits of a data modeling language, such as YANG

    6.4 Describe APIs for Cisco DNA Center and vManage

    6.5 Interpret REST API response codes and results in payload using Cisco DNA Center and RESTCONF

    6.6 Construct EEM applet to automate configuration, troubleshooting, or data collection

    6.7 Compare agent vs. agentless orchestration tools, such as Chef, Puppet, Ansible, and SaltStack

Course content
Expand all     6 lectures    28 hours