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CCNP Designing Cisco Enterprise Networks 300-420 ENSLD Course & PDF Guides

Original price was: $28.00.Current price is: $17.00.

Price: 15.00 USD | Size: 17.7 GB | Duration : 26+  Hours  | 230+ Video Lessons |⭐️⭐️⭐️⭐️⭐️ 4.9

BRAND: Expert TRAINING | ENGLISH | Bonus : Cisco 300-420 ENSLD  PDF Guides | INSTANT DOWNLOAD

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Price: 15.00 USD | Size: 17.7 GB | Duration : 26+  Hours  | 230+ Video Lessons |⭐️⭐️⭐️⭐️⭐️ 4.9

BRAND: Expert TRAINING | ENGLISH | Bonus : Cisco 300-420 ENSLD  PDF Guides | INSTANT DOWNLOAD

 

CCNP Designing Cisco Enterprise Networks 300-420 ENSLD  Course & PDF Guides

 

300-420 ENSLD Online Training

This intermediate Cisco CCNP Enterprise training prepares learners to take the 300-420 ENSLD exam, which is one of the concentration exams required to earn the CCNP Enterprise certification.

Network design engineers deal with setting up and managing the performance and security of the organization’s networks. The design engineer specifies the equipment, software, and connections. Network engineers then work with the network admin and support personnel who actually install and operate the network on a day-to-day basis.

Executing implementation plans for enterprise networks requires deep knowledge of the many devices, tools, protocols and software that make those large networks possible. This training prepares a network administrator to earn their CCNP Enterprise by covering dual stack architectures, virtualization, infrastructure, security and much more.

For anyone with network administrators on their team, this Cisco training can be used for 300-420 ENSLD exam prep, onboarding new network administrators, individual or team training plans, or as a Cisco reference resource.

300-420 ENSLD: What You Need to Know

This CCNP Enterprise training covers 300-420 ENSLD network design exam objectives, including these topics:

  • Understanding network design principles at the enterprise level (WAN, SD-WAN, WLAN, etc.)
  • Configuring data path virtualization technologies
  • Manipulating layers and configuring protocols like EIGRP, OSPF, NTP, HSRP, and more
  • Diagnosing network problems with tools like syslog, pings, and trace route
  • Configuring device access control and wireless security features
  • Automating network tasks like configuration, troubleshooting or data collection

Who Should Take 300-420 ENSLD Training?

This CCNP Enterprise training is considered associate-level Cisco training, which means it was designed for network administrators. This network design skills course is designed for network administrators with three to five years of experience with advanced network design.

New or aspiring network administrators. If you’re brand new to network administration, earning your CCNP Enterprise might be a high hurdle to clear at the very beginning of your career. But don’t let that discourage you: this training covers all the exam’s material, from network automation to infrastructure installation. Whether you’re aiming to pass the CCNP exam or just want to know what an advanced network administrator needs to know for enterprise network implementation, this training delivers it.

Experienced network administrators. If you’ve been working as a network administrator for several years, this training will round out all the experience you’ve gained on the job and cover any areas you might not have been exposed to yet. There are six categories on the core CCNP Enterprise exam: architecture, virtualization, infrastructure, assurance, security, and automation — you’ll be ready for each after this training.

Design an IPv4 and IPv6 Addressing Scheme

1. Introducing IPv4 Address Schemes

1 min

2. An IPv4 Refresher

11 mins

3. Designing a Basic Subnet

9 mins

4. Designing for an Enterprise

8 mins

5. Considerations of VLSM

5 mins

6. Summarizing IPv4 Addressing

1 min

7. Introducing IPv6 Addressing Schemes

1 min

8. IPv6 Address Structure

8 mins

9. IPv6 Address Allocations

10 mins

10. Stateless and Stateful Configuration

10 mins

11. Configure IPv6 Addresses

8 mins

12. Summarizing IPv6 Addressing

1 min

IS-IS Foundations and Design

1. Introducing IS-IS

1 min

2. The Levels of an ISO Network

6 mins

3. Areas within an IS-IS Domain

3 mins

4. The Router’s Level and Behavior

9 mins

5. Configuring the NET

7 mins

6. Configuring Level 1 IS-IS Neighbors

6 mins

7. Configuring Level 2 IS-IS Neighbors

4 mins

8. Configure Borders with Level 1/2 ISs

7 mins

9. Summarizing IS-IS Foundations

1 min

10. Introducing IS-IS Campus Designs

1 min

11. Securing IS-IS with Authentication

7 mins

12. The Flat IS-IS Network Design

4 mins

13. IS-IS in a 3-Tier Enterprise Campus

6 mins

14. The Hybrid IS-IS Design

4 mins

15. Summarizing IS-IS Designs

1 min

Design Networks with EIGRP

1. Designing EIGRP Networks

1 min

2. EIGRP Neighborships

16 mins

3. EIGRP Metrics

12 mins

4. The Feasibility Condition

7 mins

5. Autonomous Systems

6 mins

6. Stub Routers

7 mins

7. Summarization Points

4 mins

8. EIGRP Authentication

6 mins

9. Summarizing EIGRP Design

1 min

Designing Networks with OSPF

1. Introducing OSPF

1 min

2. Neighbor Adjacency Formation

21 mins

3. Designated and Backup Designated Routers

11 mins

4. The LSAs

9 mins

5. OSPF Areas

12 mins

6. Authentication

7 mins

7. Summarizing OSPF

1 min

Break Through BGP Basics with Address Families

1. Beginning with BGP

1 min

2. The Point of BGP

8 mins

3. Setting Up BGP

15 mins

4. eBGP vs iBGP

8 mins

5. Next-Hop Self

7 mins

6. The BGP Process

5 mins

7. Update-Source Interface

5 mins

8. Address Families

7 mins

9. Summarizing BGP Basics

1 min

Solve BGP Scalability Issues

1. Introducing BGP’s Scale Issues

1 min

2. The Multi-Hop Scenario

12 mins

3. Route Reflectors: Rule 1

3 mins

4. Examine Route Reflector Rule 1

5 mins

5. Route Reflectors: Rule 2

1 min

6. Examine Route Reflector Rule 2

4 mins

7. Route Reflectors: Rule 3

1 min

8. Examine Route Reflectors Rule 3

3 mins

9. Exploring Confederations

4 mins

10. Deploy and Trace a Confederation

14 mins

11. Summarizing BGP Scaling Solutions

1 min

Understand the BGP Best Path Algorithm

1. Introducing BGP’s Decision Making Process

1 min

2. Weight

8 mins

3. Local Preference

6 mins

4. Originator and AIGP

4 mins

5. AS Path

3 mins

6. Origin Code and MED

6 mins

7. eBGP vs iBGP

2 mins

8. The Remaining Tiebreakers

4 mins

9. Summarizing the BGP Best Path Algorithm

1 min

Design Networks with BGP

1. Introducing BGP Design

1 min

2. Load Balancing Outbound Connections – Single ISP

5 mins

3. Load Sharing Outbound Connections – Mulithomed ISPs

4 mins

4. Manipulate Inbound Connections – Single ISP

5 mins

5. Manipulate Inbound Connections – Multihomed ISPs

4 mins

6. BGP Communities

7 mins

7. Route Reflector Design

19 mins

8. Validating Your Design with Looking Glass

8 mins

9. Summarizing BGP Design

1 min

Determine IPv6 Migration Strategies

1. Introducing IPv6 Transition Strategies

1 min

2. Dual Stack Environments

5 mins

3. Tunneling IPv6 over IPv4

14 mins

4. IPv6 Tunneling Concerns

8 mins

5. Using LISP to Tunnel Traffic

8 mins

6. Translating IPv6 into IPv4

5 mins

7. Summarizing IPv6 Transition Technologies

3 mins

Design High Availability in Campus Networks

1. Intro

1 min

2. Network Redundancy

11 mins

3. Hot Standby Router Protocol (HSRP)

14 mins

4. Virtual Router Redundancy Protocol (VRRP)

6 mins

5. Gateway Load Balancing Protocol (GLBP)

8 mins

6. Bidirectional Forwarding Detection (BFD)

8 mins

7. FHRP Design

11 mins

8. Graceful Restart, SSO, and NSF

7 mins

9. Review and Quiz

4 mins

Explain the Hierarchical Network Model

1. Intro

1 min

2. The Hierarchical Network Model

7 mins

3. Enterprise Campus Architecture

9 mins

4. The Access Layer

5 mins

5. The Distribution Layer

7 mins

6. The Core Layer

5 mins

7. Collapsed Designs

6 mins

8. Review and Quiz

4 mins

Design Campus L2 Infrastructures

1. Intro

1 min

2. Media Types

9 mins

3. L2 and L3 Access Layer Design

6 mins

4. STP Modes and Features

7 mins

5. STP Designs

10 mins

6. Reducing STP Footprint

6 mins

7. Power over Ethernet (PoE) and Wake on LAN (WoL)

7 mins

8. Review and Quiz

5 mins

Design Multicampus L3 Infrastructures

1. Intro

1 min

2. Routing Convergence, Summarization, and Filtering

10 mins

3. Route Load Sharing

7 mins

4. Route Redistribution

9 mins

5. Virtual Routing and Forwarding (VRFs)

5 mins

6. Optimal Topologies

14 mins

7. Review and Quiz

4 mins

Describe SD-Access Architecture

1. Intro

1 min

2. SD-Access Overview

11 mins

3. SD-Access Architecture

8 mins

4. SD-Access Device Roles

7 mins

5. The SDA Control Plane – LISP

8 mins

6. The SDA Data Plane – VXLAN

6 mins

7. The SDA Policy Plane – CTS

7 mins

8. SD-Access Wireless

6 mins

9. SD-Access Automation

6 mins

10. Review and Quiz

4 mins

Design an SD-Access Fabric

1. Intro

1 min

2. Overlay and Network Segmentation Design

7 mins

3. Underlay Design

6 mins

4. Control Plane Design

4 mins

5. Border Design

7 mins

6. Hardware Selection

8 mins

7. Wireless Design

7 mins

8. Multicast in SD-Access

6 mins

9. Fabric in a Box

4 mins

10. Multisite Designs

6 mins

11. Review and Quiz

5 mins

Compare WAN Connectivity Options

1. Intro

1 min

2. L2 and L3 VPN Services

7 mins

3. Metro Ethernet and SONET/SDH

9 mins

4. Dark and Lit Fiber

8 mins

5. Cellular Connections

7 mins

6. SD-WAN Customer Edge

7 mins

7. Review and Quiz

4 mins

Design Site-to-Site VPNs

1. Intro

1 min

2. DMVPN

10 mins

3. L2 and L3 VPN Design

8 mins

4. Generic Routing Encapsulation (GRE)

7 mins

5. IPsec

6 mins

6. GET VPN

7 mins

7. Review and Quiz

4 mins

Design Enterprise WAN High Availability

1. Intro

1 min

2. WAN Circuit Redundancy

10 mins

3. Routing Across Redundant WANs

7 mins

4. Internet Circuit Redundancy

9 mins

5. Measuring and Tracking SLA

14 mins

6. Review and Quiz

4 mins

Describe Cisco SD-WAN Architecture and Principles

1. Intro

1 min

2. Cisco SD-WAN Architecture

9 mins

3. The SD-WAN Data Plane

7 mins

4. The SD-WAN Control Plane

3 mins

5. The SD-WAN Management Plane

4 mins

6. The Orchestration Plane

5 mins

7. VPNs, Colors, and TLOCs

9 mins

8. Features and Benefits

8 mins

9. Review and Quiz

4 mins

Design Cisco SD-WAN

1. Intro

1 min

2. Control Plane Design

8 mins

3. Overlay Design

9 mins

4. LAN Design

6 mins

5. Redundancy and High Availability

6 mins

6. Securing the SD-WAN

5 mins

7. Multicast Traffic

7 mins

8. QoS in SD-WAN

8 mins

9. Review and Quiz

6 mins

Select QoS Strategies

1. Intro

1 min

2. The Need for QoS

11 mins

3. The IntServ Model

8 mins

4. The DiffServ Model

10 mins

5. Classification and Marking

13 mins

6. Queuing and Scheduling

8 mins

7. Review and Quiz

3 mins

Design End-to-End QoS Policy

1. Intro

1 min

2. Congestion Management

12 mins

3. Congestion Avoidance

10 mins

4. Shaping and Policing

9 mins

5. End-to-End QoS

7 mins

6. QoS Design

11 mins

7. Review and Quiz

4 mins

Network Management and Telemetry Techniques

1. Designing for Network Management

1 min

2. In-Band vs Out-of-Band

7 mins

3. SNMP

7 mins

4. YANG, Netconf, and Restconf

6 mins

5. Netflow

5 mins

6. Syslog

5 mins

7. Summarizing Network Management Design

1 min

8. Introducing Telemetry Designs

1 min

9. Streaming Telemetry and Model-Driven Telemetry

9 mins

10. The Subscription Cadence

6 mins

11. Dial-In vs Dial-Out Telemetry

5 mins

12. MDT Protocols

8 mins

13. Summarizing Model-Driven Telemetry

1 min

Multicast Routing Foundations and Design

1. Introducing Multicast Fundamentals

1 min

2. The Point of Multicast

8 mins

3. IGMP and PIM

5 mins

4. Source Trees

6 mins

5. Shared Trees

4 mins

6. Rendezvous Points

5 mins

7. Reverse Path Forwarding

3 mins

8. Summarizing Multicast Fundamentals

1 min

9. Introducing Multicast Routing Design

1 min

10. Understanding IGMP

8 mins

11. PIM Dense-Mode (PIM-DM)

7 mins

12. PIM Sparse-Mode (PIM-SM)

10 mins

13. Bidir-PIM

3 mins

14. Source Specific Multicast (SSM)

3 mins

15. MSDP

4 mins

16. Summarizing Multicast Design

1 min

Understand Model Driven Programmability

1. Introduction to Model Driven Programmability

7 mins

2. Transactional Configurations

12 mins

3. Node Types & Leaf Attributes

6 mins

4. Exploring YANG with Pyang

9 mins

5. Linux Tricks for YANG

10 mins

6. YANG Data Modelling with the CLI

10 mins

Understand YANG-Based Network Automation

1. IETF YANG Models

14 mins

2. OpenConfig YANG Models

9 mins

3. Native YANG Models

11 mins

4. Pulling the Models

8 mins

5. Design Considerations

6 mins

Understand the NETCONF and RESTCONF protocols

1. Introduction to NETCONF

10 mins

2. NETCONF RPCs

12 mins

3. Introduction to RESTCONF

4 mins

4. RESTCONF Methods

3 mins

5. Separating Config & State

9 mins

6. Network-Wide Transactions

13 mins

 

Designing Cisco Enterprise Networks (300-420 ENSLD) FAQs: 

What will you learn in this designing Cisco enterprise networks training?

Take this course and you’ll learn the advanced topics that go into planning out, designing and implementing a Cisco enterprise network. There are five primary topics that this course covers, including advanced addressing and routing solutions, advanced enterprise campus networks, WAN for enterprise networks, planning for network services and implementing automation into your network.

Who should take this Cisco enterprise network design course?

Network administrators with some experience with Cisco enterprise networks who want a career in network design should take this course. So far in your career, you’ve developed knowledge around configuring Cisco devices and software, but this course helps you apply it at the macro level and plan out enterprise networks that make use of it all.

Is this training in designing Cisco enterprise networks associated with any certifications?

Yes, this course in how to design Cisco enterprise networks is designed to help learners prepare for 300-420 ENSLD. 300-420 ENSLD is Cisco’s professional-level certifying exam for testing familiarity with enterprise design and this course follows the same learning objectives as the exam, which is one of the necessary exams for earning the CCNP Enterprise.

What certification should you consider after taking this course in Cisco enterprise network design?

After you take this Cisco enterprise network design course, you should consider the CCNP Enterprise. This course prepares you for 300-420 ENSLD, one of the optional concentration exams that you’ll have to take to earn the CCNP Enterprise. The CCNP Enterprise has a different core exam, but you’ll be part-way to earning the cert after this course.

Why should you take this Cisco enterprise network design training?

You should take this course on how to design Cisco enterprise networks because enterprise network design is really, really hard. And there’s almost no way to break into the career field without tailored, specific training. This course prepares you for the job of enterprise network design on Cisco networks in a way no other training can.


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