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CCNA 200-301 + CCNP/CCIE ENCOR 350-401 by Arash Deljoo

Arash Deljoo

The Ultimate Cisco Combo – CCNA 200-301 + CCNP/ This powerhouse training is designed to take you from foundational networking knowledge to advanced enterprise-level expertise, all in one seamless learning journey.

Start with the CCNA 200-301, where you'll build a rock-solid understanding of networking fundamentals, including routing, switching, IP addressing, network security, and wireless technologies. Master the essential skills to configure and troubleshoot Cisco devices while gaining insights into automation and programmability—key components of modern IT.

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The Ultimate Cisco Combo – CCNA 200-301 + CCNP/ This powerhouse training is designed to take you from foundational networking knowledge to advanced enterprise-level expertise, all in one seamless learning journey.

Start with the CCNA 200-301, where you'll build a rock-solid understanding of networking fundamentals, including routing, switching, IP addressing, network security, and wireless technologies. Master the essential skills to configure and troubleshoot Cisco devices while gaining insights into automation and programmability—key components of modern IT.

From there, dive into the CCNP/ This advanced module equips you with in-depth knowledge of enterprise infrastructure, including advanced routing protocols, virtualization, SD-WAN, and network automation. Develop the expertise needed to design, operate, and optimize large-scale enterprise networks confidently.

This combo course isn’t just about passing exams; it’s about empowering you with the tools and skills to excel in real-world networking roles. Whether you're aspiring to become a Network Engineer, IT Specialist, or aiming for the pinnacle of Cisco certifications, this course prepares you to tackle any challenge with confidence.

With hands-on labs, expert guidance, and practical scenarios, you’ll fast-track your journey from a networking novice to an enterprise networking professional.

Why settle for just one certification? Combine the power of CCNA and CCNP/

Enroll now

What's inside

Learning objectives

  • Ccna - network fundamentals
  • Ccna - network access
  • Ccna - ip connectivity
  • Ccna - ip services
  • Ccna - security fundamentals
  • Ccna - automation and programmability
  • Encor - packet forwarding
  • Encor - spanning tree protocol
  • Encor - advanced stp tuning
  • Encor - multiple spanning tree protocol
  • Encor - vlan trunks and etherchannel bundles
  • Encor - ip routing essentials
  • Encor - eigrp
  • Encor - ospfv2
  • Encor - advanced ospf
  • Encor - ospfv3
  • Encor - bgp
  • Encor - advanced bgp
  • Encor - multicast
  • Encor - qos
  • Encor - ip services
  • Encor - overlay tunnels
  • Encor - wireless signals and modulation
  • Encor - wireless infrastructure
  • Encor - understanding wireless roaming and location services
  • Encor - authenticating wireless clients
  • Encor - troubleshooting wireless connectivity
  • Encor - enterprise network architecture
  • Encor - fabric technologies
  • Encor - network assurance
  • Encor - secure network access control
  • Encor - network device access control and infrastructure security
  • Encor - virtualization
  • Encor - foundational network programmability concepts
  • Encor - introduction to automation tools
  • Show more
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Syllabus

CCNA 200-301 IPv4 Subnetting / Analyzing Classful IPv4 Networks & Subnet Masks

1- Software vs. Protocol Introduction

2- Protocol Definition

3- TCP/IP Introduction

4- Decimal Basis Introduction

5- Binary  Basis Introduction

6- Decimal to Binary Conversion

7- Binary  to Decimal Conversion

8- Dotted Decimal Notation [DDN] Introduction

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1- IP Address Parts Introduction

2- Network IDentifier Introduction

3- Host    IDentifier Introduction

4- IP Address Classes Introduction

5- IP Address Classes Usage

6- IP Address Classes Examples

7- Network IP Addressing Example

1- IP Address Types Introduction

2- Unicast Communication Introduction

3- Multicast Communication Introduction

4- Broadcast Communication Introduction

5- Local Broadcast Communication Introduction

6- Directed Broadcast Communication Introduction

7- Class D Usage Introduction

8- Class E Usage Introduction

9- IETF Introduction

10- 0.X.X.X Address Introduction

11- 127.X.X.X Address Introduction

12- Loopback Testing Usage

1- Classful Network Introduction

2- Network ID Introduction

3- Host    ID Introduction

4- Network Address Introduction

5- Broadcast Address Introduction

6- Classless Network Introduction

7- Subnet Mask Introduction

8- Default Subnet Mask Introduction

9- CIDR [ Class Inter Domain Routing ] Introduction


Analyzing Classful IPv4 Networks Quiz
Analyzing Subnet Masks Quiz

1- Formats of Subnet Mask Presentation

2- Prefix Subnet Mask Presentation

3- Binary Subnet Mask Presentation

4- Decimal Subnet Mask Presentation

5- Classful View of Classless IP Address

6- Classless View of Classless IP Address

7- IP Address Subnetting Example-1

8- Network Address Calculation in Subnetted Network

9- Host    Address Calculation in Subnetted Network

10- Broadcast Address Calculation in Subnetted Network

1- IP Subnetting Example-2 -> 4 Network / 62 Hosts

2- IP Subnetting Example-3 -> 7 Network / 30 Hosts  , 7 Network / 2 Hosts

3- IP Subnetting Example-4 -> 1 Network / 126 Hosts , 3 Network / 30 Hosts , 3 Network / 6 Hosts

4- FLSM ( Fixed    Length Subnet Mask ) Introduction

5- SLSM ( Single   Length Subnet Mask ) Introduction

6- VLSM ( Variable Length Subnet Mask ) Introduction

7- IP Address Subnetting Design

IP Address Subnetting Quiz

1- Network Interface Card [NIC] Introduction

2- Switch  Introduction

3- Router  Introduction

4- Local Area Network [LAN] Introduction

5- Wide  Area Network [WAN] Introduction

6- Point-to-Point Link Introduction

7- Ethernet over MPLS [EoMPLS] Introduction

8- Ethernet over MPLS [EoMPLS] Introduction

9- IP Address Subnetting Steps

10- DHCP Service Introduction

11- Compare FLSM and VLSM

1- Finding Subnet ID and Resident Subnet ID in IP Address

2- Finding Subnet Broadcast Address in IP Address

3- Finding Subnet's Range of Usable Unicast IP Addresses

4- Interesting Octet Introduction

5- Magic Number Introduction

6- Finding Subnet ID with Boolean AND

7- Finding Broadcast Address with Boolean OR

Analyzing Existing Subnets Quiz
CCNA 200-301 Introduction to TCP/IP Networking

1- Computer Network Introduction

2- User and Network Administrator Introduction

3- SOHO [ Small Office Home Office ] Introduction

4- Enterprise Network Introduction

5- SOHO Internet Connection Types Introduction

6- Enterprise Network Connection Types Introduction

7- Networking Model Introduction and Usage

8- OSI [ Open System Interconnection ] Introduction and History

9- SNA [ System Network Architecture ] Introduction

10- TCP/IP Introduction and History

11- Original TCP/IP vs. Updated TCP/IP

12- OSI Reference Model Vs.  Original TCP/IP vs. Updated TCP/IP

13- Brief Overview about TCP/IP Application Layer [HTTP/FTP/SMTP/POP3] and It's Function

14- Brief Overview about TCP/IP Transport Layer   [TCP/UDP] and It's Function

15- Brief Overview about TCP/IP Network Layer     [IP/ICMP] and It's Function

16- Brief Overview about TCP/IP Data-Link Layer   [Ethernet/Wifi] and It's Function

17- Brief Overview about TCP/IP Physical Layer    and It's Function

1- TCP-IP Application Layer Explanation

2- TCP-IP Transport   Layer Explanation

3- TCP-IP Network     Layer Explanation

4- TCP-IP DataLink    Layer Explanation

5- Encapsulation Process Introduction

6- Decapsulation Process Introduction

7- HTTP Overview

8- Same-Layer Introduction

9- Adjacent-Layer Introduction

10- Message,Segment,Packet,Frame Introduction

11- PDU [ Protocol Data Unit ] Introduction

Introduction to TCP/IP Networking Quiz
CCNA 200-301 Fundamentals of Ethernet LANs

1- Local Area Network [LAN] Overview

2- Wide Area Network [WAN] Overview

3- Wireless LAN [WLAN] Overview

4- Ethernet LAN Introduction

5- Small Office Home Office [SOHO] Ethernet Components Introduction

6- Enterprise Network Ethernet Components Introduction

7- Ethernet Function in Physical Layer Introduction

8- Ethernet Function in DataLink Layer Introduction

9- Ethernet Media Types Introduction

10- Ethernet Twisted Pair [TP]  Specifications Introduction

11- Ethernet Twisted Pair [TP]  Categories Introduction

12- Ethernet Fiber Optic Introduction

1- Unshielded Twisted Pair (UTP) Introduction

2- Shielded Twisted Pair (STP) Introduction

3- Wireless LAN [WLAN] Overview

4- UTP Cabling Pinouts for 10BASE-T and 100BASE-T Introduction

5- EIA/TIA 568A/568B Introduction

6- Straight Through Cable  Introduction

7- Cross Over Cable Introduction

8- Straight Through Cable Pinout Introduction

9- Cross Over Cable Pinout Introduction

10- Straight Through Cable Usage

11- Cross Over Cable Usage

12- Auto MDIX Introduction

1- Fiber Optic Introduction

2- Components of a Fiber-Optic Cable Introduction

3- Fiber Optic Types [ MMF , SMF ] Introduction

4- Multi Mode Fiber [MMF] Introduction

5- Single Mode Fiber [SMF] Introduction

6- Optical Transmitter Introduction

7- Gigabit Ethernet Interface Converter (GBIC) Introduction

8- Small Form Pluggable (SFP) Introduction

9- Small Form Pluggable Plus (SFP+) Introduction

10- Comparisons Between UTP, MM, and SM Ethernet Cabling

11- Ethernet Addressing Introduction

12- Media Access Control (MAC) Introduction

13- Organizationally unique identifier (OUI) Introduction

14- Vendor Assigned Address [VAA] Introduction

15- MAC Address Types [ Unicast-Multicast-Broadcast ] Introduction

1- Ethernet Frame Introduction

2- Ethernet Frame Preamble Field Introduction

3- Ethernet Frame SFD Introduction

4- Ethernet Frame Destination Address Introduction

5- Ethernet Frame Source Address Introduction

6- Ethernet Frame Type Introduction

7- Ethernet Frame FCS  Introduction

8- Ethernet Frmae PAD  Introduction

9- Interface Maximum Tranmission Unit [MTU] Introduction

10- Ethernet Hub Introduction

11- Ethernet Hub Disadvantages

12- Ethernet Hub Functions

13- Ethernet Switch Introduction

14- Ethernet Switch Functions

15- Ethernet Switch Benefits

16- Simplx/Half Duplex/Full Duplex Introduction

17- Carrier Sense Multi Access/Collision Detection [CSMA/CD] Introduction

Fundamentals of Ethernet LANs Quiz
CCNA 200-301 Fundamentals of WANs and IP Routing

1- Wide Area Network [WAN] Fundamentals Introduction

2- Leases Line Introduction

3- Highlevel Data Link Control [HDLC] Introduction

4- Cisco Highlevel Data Link Control [cHDLC] Introduction

5- Cisco Highlevel Data Link Control [cHDLC] Framing Introduction

6- Ethernet WAN Introduction

7- Ethernet WAN Types  Introduction

8- Ethernet LAN vs. Ethernet WAN

1- IP Routing Fundamentals

2- Network Layer Routing (Forwarding) Logic

3- The IP Header Introduction

4- IP Routing Protocol Introduction

5- Domain Name System [DNS] Introduction

6- Address Resolution Protocol [ARP] Introduction

7- Internet Control Message Protocol [ICMP] Introduction

8- Ping Command Introduction

Fundamentals of WANs and IP Routing Quiz
CCNA 200-301 Using the Command-Line Interface

1- Cisco Catalyst Switch Front Panel Introduction

2- Cisco Catalyst Switch Back  Panel Introduction

3- Redundant Power Supply [RPS] Introduction

4- Console Cable Introduction

5- DB-9 to Rj-45 Console Cable Introduction

6- USB to mini USB Console Cable Introduction

7- USB-to-Serial Converter Introduction

8- Terminal Emulation Program Introduction

1- CLI Modes Introduction

2- User Exec Mode Introduction

3- User Privileged Mode Introduction

4- Global Configuration Mode Introduction

5- CLI Errors Introduction

6- CLI Shortcuts Introduction

7- Context Sensitive Help Introduction

8- Hostname Configuration

9- Reload Command Introduction


Using the Command-Line Interface Quiz
CCNA 200-301 Configuring Basic Switch Management

1- User Mode Security with Password for Console Connection Configuration

2- User Mode Security with Username and Password for Console Connection Configuration

3- User Mode Security with Username and Secret   for Console Connection Configuration

4- User Mode Security with Password for VTY Line Connection Introduction

5- User Mode Security with Username and Password for VTY Line Connection Introduction

6- User Mode Security with Username and Secret   for VTY Line Connection Introduction

7- Service Password Encryption Configuration

8- Privileged Mode Security with enable password Command Configuration

9- Privileged Mode Security with enable secret   Command Configuration

10- Interfaces Naming Conventions for Fixed and Modular Switches Introduction

11- Interfaces Naming Conventions for Stackable Switch Introduction

Configuring Basic Switch Management Quiz
CCNA 200-301 Configuring and Verifying Switch Interfaces

1- Switch Interfaces Status Introduction

2- Switch Interfaces Description Configuration

3- Switch Interfaces VLAN Introduction

4- Switch Interfaces Speed Configuration

5- Switch Interfaces Duplex Configuration

6- Switch Interfaces Speed and duplex Auto Negotiation Introduction

1- Telnet Protocol Introduction

2- Telnet Protocol Configuration in Switch

3- Telnet Protocol Configuration in Router

4- Telnet Protocol Verification

5- SSH    Protocol Introduction

6- SSH    Protocol Configuration in Switch

7- SSH    Protocol Configuration in Router

8- SSH    Protocol Verification

9- Interface VLAN  Introduction

1- Securing User Mode Access with External Authentication Servers

2- Switch Memories Introduction

3- Read Only Memory [ROM] Introduction

4- Flash Memory Introduction and Verification

5- Random Access Memory Introduction and Verification

6- NonVolatile Random Access Memory [NVRAM] Introduction and Verification

7- Copying and Erasing Configuration Files

8- Enabling IPv4 for Remote Access

9- Logging Synchronous Introduction and Configuration

10- EXEC Timeout Introduction and Configuration

11- Name Server Configuration in Switch

12- Analyzing Switch Interface Status and Statistics

13- Runs,Giants,Input Errors,CRC,Frame,Packet Output,Collision,Late Collision Errors Introduction


Configuring and Verifying Switch Interfaces Quiz
CCNA 200-301 Analyzing Ethernet LAN Switching

1- Interface Range Introduction

2- Interface Range Configuration

3- MAC-Address-Table Introduction

4- Static MAC-Address-Table Introduction

5- Static MAC-Address-Table Configuration

6- Static MAC-Address-Table Verification

7- Dynamic MAC-Address-Table Introduction

8- Dynamic MAC-Address-Table Configuration

9- Dynamic MAC-Address-Table Verification

10- Static MAC-Address-Table Configuration Usage

11- Campus LAN Vs. Data Center LAN Introduction

12- Unknown Unicast Frame Introduction

13- MAC Address Tables with Multiple Switches


Analyzing Ethernet LAN Switching Quiz
CCNA 200-301 Implementing Ethernet Virtual LANs & IP Routing in the LAN

1- Broadcast Domain Introduction

2- Reducing the Size of Broadcast Domain with Router

3- Reducing the Size of Broadcast Domain with Virtual LAN [VLAN]

4- Virtual LAN [VLAN] Introduction

5- Virtual LAN [VLAN] Configuration

6- Virtual LAN [VLAN] Verification

7- VLAN Assignment Configuration

8- VLAN Assignment Verification

9- VLAN-ID Usable Range Introduction

10- VLAN-Name Introduction

1- The Need to Trunk Interfaces

2- Access Interfaces Introduction

3- Trunk  Interfaces Introduction

4- ISL Trunk Protocol Introduction

5- IEEE 802.1Q Trunk Protocol Introduction

6- Trunk  Interfaces Configuration

7- Trunk  Interfaces Verification

8- Native VLAN Configuration

9- Native VLAN Verification

1- Allowed VLAN in Trunk Intrfaces Introduction

2- Allowed VLAN in Trunk Intrfaces Configuration

3- Allowed VLAN in Trunk Intrfaces Verification

4- Dynamic Trunking Protocol [DTP] Introduction

5- Dynamic Trunking Protocol [DTP] Configuration

6- Dynamic Trunking Protocol [DTP] Verification

7- DTP Administrative Mode Introduction

8- DTP Operational    Mode Introduction

9- DTP Administrative Encapsulation Mode Introduction

10- DTP Operational    Encapsulation Mode Introduction

1- Active VLANs in Trunk Interfaces Introduction

2- The Need to VLAN Trunking Protocol [VTP] Introduction

3- VTP Domain Feature Introduction

4- VTP Mode   Feature Introduction

5- VLAN Trunking Protocol [VTP] Configuration

6- VLAN Trunking Protocol [VTP] Verification

7- IP Telephony Introduction

8- The Need to Voice VLAN Introduction

9- Voice VLAN Configuration

10- Voice VLAN Verification

Implementing Ethernet Virtual LANs

1- The Need to Inter VLAN Routing Introduction

2- Inter VLAN Routing with Router and Access Interfaces Introduction

3- Inter VLAN Routing with Router and Access Interfaces Configuration

4- Inter VLAN Routing with Router on a Stick [ROAS] Introduction

5- Inter VLAN Routing with Router on a Stick [ROAS] Configuration

6- Inter VLAN Routing with Router on a Stick [ROAS] Verification

7- Sub Interface Introduction and Configuration

1- Multi Layer Switch [MLS] Introduction

2- MLS Usage in Inter VLAN Routing Introduction

3- Switched Virtual Interface [SVI] Introduction

4- Routed Port Introduction

5- Comparing L2Switch and MLS

6- MLS Inter VLAN Routing with SVI Interface Configuration

7- MLS Inter VLAN Routing with Routed Interface Configuration

8- Inter VLAN Routing with MLS Verification

9- Shutdown VLAN Feature Introduction

IP Routing in the LAN Quiz
CCNA 200-301 Spanning Tree Protocol ( STP )

1- The Need to Spanning Tree Protocol [STP] Introduction

2- The STP Root Bridge Introduction

3- The STP Root Port Role Introduction

4- The STP Designated Port Role Introduction

5- The STP Bridge ID Introduction

6- STP Bridge Priority Configuration

7- The STP Bandwidth/Cost Introduction

8- The Importance of STP Root Bridge in Active Topology


1- The STP Tie Breakers Introductions

2- The STP Tie Breakers for Root Port Election Introductions

3- The STP Tie Breakers for Designated Port Election Introductions

4- The STP Alternate Port Introduction

5- The STP Backup Port Introduction

6- The Per VLAN STP Plus [PVST+] Introduction

7- The Per VLAN STP Plus [PVST+] Configuration

8- The Per VLAN STP Plus [PVST+] Verification


1- The STP Real Scenario Introductions

2- Modifying the Root Bridge Election Introductions

3- The STP Primary Root Bridge Introductions

4- The STP Primary Root Bridge Configuration

5- The STP Secondary Root Bridge Introductions

6- The STP Secondary Root Bridge Configuration

7- The STP Bridge Protocol Data Unit [BPDU] Fields Introduction

8- The STP Standards and Models Introduction

9- The STP Modes Configuration

1- The STP Convergence Introduction

2- The STP Listening State Introduction

3- The STP Learning  State Introduction

4- The STP Topology Change Notification [TCN] Introduction

5- The STP Direct Topology Change Introduction

6- The STP InDirect Topology Change Introduction

7- The STP Insignificant Topology Change Introduction

8- The STP Hello Timer Introduction

9- The STP Forward Delay Timer Introduction

10- The STP Max Age Timer Introduction

11- The STP Portfast Feature Introduction

12- The STP Portfast Feature Configuration

13- The STP Portfast Feature Verification

1- The STP Portfast Introduction

2- The STP Portfast Configuration

3- The STP Portfast Verification

4- The STP BPDU-Guard Introduction

5- The STP BPDU-Guard Configuration

6- The STP BPDU-Guard Verification

7- The Interface Err-Disabled Status Introduction

8- The STP Interface Cost Configuration

9- The STP Interface Cost Verification

10- The STP Interface Priority Configuration

11- The STP Interface Priority Verification

12- Recommendation for Root Bridge Place in STP

Spanning Tree Protocol (STP) Quiz
RSTP and EtherChannel Configuration

1- The Traditional Spanning Tree Protocol Review

2- The Rapid Spanning Tree Protocol [RSTP] Introduction

3- The Rapid Spanning Tree Protocol [RSTP] Configuration

4- The Rapid Spanning Tree Protocol [RSTP] Verification

5- The RSTP Synchronization Introduction

6- The RSTP Roles Introduction

7- The RSTP States Introduction

8- The RSTP Link Types Introduction

9- Comparing STP and RSTP 

1- The Need to EtherChannel Introduction

2- The EtherChannel Requirement Introduction

3- The EtherChannel Configuration Methods Introduction

4- The Etherchannel Configuration with Manual Method

5- The Etherchannel Configuration with PAgP

6- The Etherchannel Configuration with LACP

7- The EtherChannel Verification 

8- The EtherChannel Load-Balancing Introduction

9- The L3 EtherChannel Introduction

10- The L3 EtherChannel Configuration

11- The L3 EtherChannel Verification

RSTP and EtherChannel Configuration Quiz
CCNA 200-301 Operating Cisco Routers

1- Small Office Home Office [SOHO] Router Introduction

2- Small Office Home Office [SOHO] Router Internal Components

3- Enterprise Router Introduction

4- Enterprise Router Interfaces

5- CSU/DSU Introduction

6- AUX Port Introduction

7- Installing Enterprise Routers Introduction

8- Accessing the Router CLI Introduction

9- Router Interfaces Introduction

10- Router Interface IP Addresses Configuration

11- Router Routing-Table Verification

12- Interface Clock-Rate Introduction

13- Interface Clock-Rate Configuration

Cisco Routers Operation Quiz

1- IP Routing Introduction

2- Intra Network Connection Introduction

3- Intra Network Connection Configuration

4- Inter Network Connection Introduction

5- Inter Network Connection Configuration

6- MAC-Address-Table Learning and Frame Forwarding Introduction

7- ARP Table Learning and Usage Introduction

8- Routing Table Usage Introduction

9- Difference between IP Routing in PC and Router

CCNA 200-301 Configuring IPv4 Addresses and Static Routes

1- Routing Table Introduction

2- Routing Table Fields Introduction

3- Routing Table Verification Command Introduction

4- Static Route Configuration with Outgoing Interface

5- Static Route Configuration with Next Hop IP Address

6- Static Route Configuration with Outgoing Interface and Next Hop IP Address

7- ARP Proxy Feature Introduction

8- Compare three Method of Static Route Configuration

9- The ICMP Destination Host Unreachable Introduction

10- The Usage of "do" in CLI Introduction


1- Static Route Advantages Introduction

2- Static Route DisAdvantages Introduction

3- Static default Route Introduction

4- Static default Route Configuration

5- Static default Route Verification

6- Static default Route Usage in Internet Connectivity

7- Load Sharing Configuration with Static Route

8- Fault Tolerance Configuration with Static Route

9- Static Host Route Configuration

10- Administrative Distance [AD] Introduction

11- Floating Static Route Introduction

12- Routing Table Verification

Configuring IPv4 Addresses and Static Routes Quiz
CCNA 200-301 Troubleshooting IPv4 Routing

1- Internet Control Message Protocol [ICMP] Introduction

2- ICMP Type and Code Field Introduction

3- ICMP Echo Request and Echo Reply Introduction

4- PING Command Introduction

5- Extended PING Command Introduction

6- Intra Network Troubleshooting with PING Command

7- Inter Network Troubleshooting with Extended PING Command

8- Troubleshooting the Problems related to DNS with PING Command

9- Inter VLAN Routing [ROAS] and IP Routing Configuration

10- Inter VLAN Routing [MLS] and IP Routing Configuration

1- IPv4 Header Introduction

2- Time to Live [TTL] Introduction

3- Traceroute Command Introduction

4- Traceroute with ICMP Introduction

5- Traceroute with UDP Introduction

6- Extended Traceroute Introduction

7- TELNET Usage in IPv4 Routing Troubleshooting

8- SSH    Usage in IPv4 Routing Troubleshooting

Troubleshooting IPv4 Routing Quiz
CCNA 200-301 Understanding and Implementing OSPF

1- Dynamic Routing Protocol Introduction

2- Routed Protocol / Routable Protocol Introduction

3- Autonomous System [AS] Introduction

4- Interior Gateway Protocols [IGP] Introduction

5- Exterior Gateway Protocols [EGP] Introduction

6- IGP vs. EGP Introduction

7- IGP Routing Protocol Categories

8- Metric Calculation in IGPs Introduction

9- Distance Vector Algorithm Introduction

Dynamic Routing Protocol Fundamental Quiz

1- Open Shortest Path First [OSPF] Introduction

2- OSPF Versions Introduction

3- Link State [LS] Algorithm Introduction

4- OSPF Area Introduction

5- Area Border Router [ABR] Introduction

6- Internal Router Introduction

7- Backbone Router Introduction

8- Autonomous Systme Boundary Router [ASBR] Introduction

9- Wild Card Mask [WC-MASK] Introduction

10- OSPF Process-ID Introduction

11- OSPF Configuration Introduction

12- Single OSPF Area Configuration

13- Neighborship Table Introduction

14- Neighborship Table Verification

13- Link State DataBase [LSDB] Introduction

14- Link State DataBase [LSDB] Verification

15- OSPF Cost Introduction

16- OSPF Routin Table Verification

OSPF Fundamentals and Single Area OSPF Quiz

1- OSPF Multi Area Configuration

2- OSPF Multi Area Verification

3- OSPF Inter Area Routes Introduction

4- Loopback Interface Introduction

5- Loopback Interface Configuration

6- OSPF Router-ID Introduction

7- OSPF Router-ID Configuration

8- OSPF Multi Point Network Inroduction

9- Designated Router [DR] Introduction

10- Backup Designated Router [BDR] Introduction

11- DRother Introduction

12- OSPF Priority Introduction

13- OSPF Priority Configuration

14- OSPF Priority Verification

Multi Area OSPF and OSPF Multipoint Network Quiz

1- OSPF Neighborship Requirement Introduction

2- OSPF Hello Interval Introduction

3- OSPF Dead  Interval Introduction

4- OSPF Hello Interval Configuration

5- OSPF Dead  Interval Configuration

6- OSPF POINT_TO_POINT Network Type Introduction

7- OSPF BROADCAST Network Type Introduction

8- OSPF DataBase Description [DBD] Introduction

9- OSPF Link State Request [LSR] Introduction

10- OSPF Link State Update [LSU] Introduction

11- OSPF Link State Acknowledgment [LSACK] Introduction

12- OSPF State Introduction

13- OSPF Full Adjacency Introduction

14- OSPF 2-WAY Adjacency Introduction

15- OSPF POINT_TO_POINT vs. BROADCAST Network Types

OSPF Neighborship and Messages and States Quiz

1- OSPF Passive Interface Introduction

2- OSPF Passive Interface Configuration

3- OSPF Passive Interface Verification

4- OSPF Default Route Advertisement Introduction

5- OSPF Default Route Advertisement Configuration

6- OSPF Default Route Advertisement Verification

7- OSPF Auto Cost Introduction

8- OSPF Auto Cost Reference Bandwidth Introduction

9- OSPF Auto Cost Reference Bandwidth Configuration

10- OSPF Auto Cost Reference Bandwidth Verification

11- OSPF Manual Cost Introduction

12- OSPF Manual Cost Configuration

13- OSPF Manual Cost Verification

14- OSPF Load-Balancing Introduction

14- OSPF Load-Balancing Configuration

14- OSPF Load-Balancing Verification

OSPF Additional Features Quiz

1- Link State Data Base [LSDB] Introduction

2- Link State Advertisement [LSA] Introduction

3- LSA TYPE-1 ( Router LSA ) Introduction

4- LSA TYPE-2 ( Network LSA ) Introduction

5- LSA TYPE-3 ( Summary LSA ) Introduction

6- LSA TYPE-1 ( Router LSA ) Verification

7- LSA TYPE-2 ( Network LSA ) Verification

8- LSA TYPE-3 ( Summary LSA ) Verification

CCNA 200-301 Fundamentals of IP Version 6

1- The Need to IPv6 Introduction

2- IPv6 History Introduction

3- IPv6 Address Format Introduction

4- The Simplification Rules of IPv6 Address Introduction

5- The IPv6 Address Subnet-ID Introduction

6- The IPv6 Address Interface-ID Introduction

7- IPv6 Address Types Introduction

8- IPv6 Multicast Address Introduction

9- IPv6 Multicast Address Flag Introduction

10- IPv6 Multicast Address Scope Introduction

Fundamentals of IP Version 6 Quiz
CCNA 200-301 IPv6 Addressing and Subnetting

1- Anycast IPv6 Address Introduction

2- Anycast IPv6 Address Configuration

3- Anycast IPv6 Address Verification

4- Unspecified Unicast IP Address Introduction

5- Unspecified Unicast IP Address Verification

6- Loopback IPv6 Address Introduction

7- Loopback IPv6 Address Verification

8- Unique Local Address [ULA] Introduction

9- Extended Unique Identifier [EUI-64] Introduction

10- Link   Local Address [LLA] Introduction

11- Link   Local Address [LLA] Configuration

12- Link   Local Address [LLA] Verification

13- Embedded IPv4 - IPv4 Mapped Introduction

14- Embedded IPv4 - IPv4 Compatible Introduction

IPv6 Addressing and Subnetting Quiz
CCNA 200-301 Implementing IPv6 Addressing on Routers

1- Global Unicast Address [GUA] Introduction

2- Internet Registery [IR] Introduction

3- Regional Internet Registery [RIR] Introduction

4- National Internet Registery [NIR] Introduction

5- Local Internet Registery [LIR] Introduction

6- Registery Prefix Introduction

7- ISP Prefix Introduction

8- Site Prefix ( Global Routing Prefix ) Introduction

9- IPv6 Global Unicast Address [GUA] Assignment with Static Configuration

10- IPv6 Global Unicast Address [GUA] Assignment with Static with EUI-64 Configuration

11- StateLess Address AutoConfiguration [SLAAC] Introduction

12- StateLess Address AutoConfiguration [SLAAC] Configuration

13- StateLess Address AutoConfiguration [SLAAC] Verification

14- Router Advertisement [RA] Introduction

15- Router Solicitation  [RS] Introduction

1- Stateless DHCP Introduction

2- Stateful  DHCP Introduction

3- Neighbor Discovery Protocol [NDP] Introduction

4- Neighbor Discovery Protocol [NDP] Verification

5- Neighbors Solicitation [NS] Introduction

6- Neighbors Advertisement [NA] Introduction

7- Duplicate Address Detection [DAD] Introduction

8- Duplicate Address Detection [DAD] Verification

9- IPv6 Header vs. IPv4 Header Introduction

10- Internet Control Message Protocol [ICMPv6] Introduction

Implementing IPv6 Addressing on Routers Quiz
CCNA 200-301 Implementing IPv6 Routing

1- IPv6 Connected Route Introduction

2- IPv6 Local     Route Introduction

3- IPv6 Static    Route Introduction

4- IPv6 Static    Route Configuration with Outgoing Interface

5- IPv6 Static    Route Configuration with Outgoing Interface and Global Unicast Address Next-Hop

6- IPv6 Static    Route Configuration with Outgoing Interface and Link Local Address Next-Hop

7- IPv6 Static    Route Configuration with Global Unicast Address Next-Hop

8- IPv6 Connected Route Verification

9- IPv6 Local     Route Verification

10-IPv6 Static    Route Verification

11-IPv6 Static Default Route Introduction

12-IPv6 Static Default Route Configuration

13-IPv6 Static Default Route Verification

14-IPv6 Floating Static Route Introduction

15-IPv6 Static Host Route Introduction

16-IPv6 Static Host Route Configuration

17-IPv6 Summary

Implementing IPv6 Routing Quiz
CCNA 200-301 Fundamentals of Wireless Networks

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Provides a comprehensive curriculum covering both CCNA 200-301 and CCNP/ENCOR 350-401, offering a deep dive into networking fundamentals and advanced enterprise-level expertise
Offers hands-on labs and practical scenarios, enabling learners to develop real-world skills applicable to networking roles and challenges
Covers a wide range of topics, including routing, switching, IP addressing, network security, wireless technologies, virtualization, SD-WAN, and network automation, aligning with the objectives of the CCNA and CCNP exams
Begins with CCNA 200-301, which builds a solid foundation in networking fundamentals, making it suitable for those new to the field
Progresses to CCNP/ENCOR 350-401, which equips learners with in-depth knowledge of enterprise infrastructure and advanced networking concepts, catering to those seeking to enhance their expertise
Designed as a seamless learning journey, taking learners from foundational knowledge to advanced expertise in a cohesive manner

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in CCNA 200-301 + CCNP/CCIE ENCOR 350-401 by Arash Deljoo with these activities:
Review IPv4 Subnetting Fundamentals
Strengthen your understanding of IPv4 subnetting, a crucial foundation for the CCNA and CCNP courses, ensuring you can efficiently design and manage networks.
Show steps
  • Review subnetting concepts and calculations.
  • Practice subnetting exercises with varying network sizes.
  • Familiarize yourself with CIDR notation.
Review 'Cisco CCNA Simplified'
Supplement your learning with a simplified guide to CCNA concepts, making complex topics more accessible and easier to understand.
View Cisco CCNA Simplified on Amazon
Show steps
  • Read chapters related to the current course topics.
  • Focus on understanding the core concepts and examples.
  • Use it as a supplementary resource to clarify any confusing topics.
Review 'CCNA 200-301 Official Cert Guide, Volume 1'
Reinforce your understanding of core CCNA topics using the official certification guide, ensuring you're well-prepared for the exam and have a solid reference for the course.
View Putting Knowledge to Work on Amazon
Show steps
  • Read the chapters corresponding to the current course modules.
  • Complete the chapter review questions and practice exams.
  • Review any areas where you struggled.
Four other activities
Expand to see all activities and additional details
Show all seven activities
Configure basic switch settings
Solidify your understanding of switch configuration by practicing basic tasks like setting passwords, configuring interfaces, and managing VLANs.
Show steps
  • Set up a virtual lab environment using Packet Tracer or GNS3.
  • Configure passwords for console, VTY, and enable access.
  • Configure interface descriptions, speed, and duplex settings.
  • Create and assign VLANs to switch ports.
Design a Network for a Small Business
Apply your knowledge by designing a network for a hypothetical small business, including IP addressing, routing, switching, and security considerations.
Show steps
  • Define the business requirements and network size.
  • Create an IP addressing scheme using VLSM.
  • Select appropriate network devices and technologies.
  • Document the network design with diagrams and configurations.
Create a Video Tutorial on OSPF Configuration
Deepen your understanding of OSPF by creating a video tutorial explaining its configuration and operation, helping others learn while reinforcing your own knowledge.
Show steps
  • Plan the content and structure of the tutorial.
  • Set up a lab environment to demonstrate OSPF configuration.
  • Record the video tutorial, explaining each step clearly.
  • Edit the video and add annotations or graphics.
  • Share the video on a platform like YouTube or a course forum.
Contribute to a networking-related open-source project
Gain practical experience and contribute to the networking community by participating in an open-source project, such as contributing to documentation or reporting bugs.
Show steps
  • Find a networking-related open-source project on GitHub or GitLab.
  • Explore the project's documentation and issue tracker.
  • Identify an area where you can contribute, such as documentation or bug reporting.
  • Submit a pull request with your contribution.

Career center

Learners who complete CCNA 200-301 + CCNP/CCIE ENCOR 350-401 by Arash Deljoo will develop knowledge and skills that may be useful to these careers:
Network Engineer
A Network Engineer designs, implements, and manages an organization's computer networks. This course is directly relevant to this role, as it covers essential networking concepts, from basic routing and switching to advanced enterprise infrastructure. A Network Engineer must be able to configure and troubleshoot Cisco devices, understand network security, and handle automation, all of which are addressed in this course. The hands-on labs in this course provide a practical learning experience that mirrors the day to day work of a Network Engineer. Someone entering this career field would benefit greatly as the course provides the foundational knowledge as well as enterprise level networking capabilities crucial for success.
See salaries and explore the career path for Network Engineer
Network Administrator
A Network Administrator is responsible for the upkeep of computer networks. This course is an excellent fit since it gives a thorough grounding in networking fundamentals as well as advanced concepts such as routing protocols, virtualization, and network automation. A Network Administrator must be able to handle network security issues as well as troubleshoot Cisco devices, both of which are central to this course. The course's hands-on labs are particularly beneficial for anyone looking to become a Network Administrator , as they provide necessary practical experience. By taking this course, a Network Administrator can confidently perform their duty.
See salaries and explore the career path for Network Administrator
Systems Administrator
A Systems Administrator manages the daily operations of computer systems and networks. This course helps someone in this role build a strong understanding of key networking components, such as routing, switching, and IP addressing, which are vital for system administration. A Systems Administrator often needs to configure and troubleshoot network devices, skills that this course emphasizes. The course will be valuable to a Systems Administrator as they often deal with automation and programmability, topics covered in this course. With knowledge from this course, a Systems Administrator can perform their role more efficiently by improving network performance and security.
See salaries and explore the career path for Systems Administrator
Network Architect
A Network Architect plans and designs computer networks for organizations. This course provides a solid base in fundamental networking concepts, such as routing and switching, while also touching on advanced topics like enterprise infrastructure, network automation and SD-WAN. A Network Architect needs a strong understanding of network design principles and this course provides that. This course gives someone entering the field the advantage of having both foundational and advanced knowledge of networking, which can be essential for sound network design. The training provided in this course can help them to tackle any design challenge.
See salaries and explore the career path for Network Architect
IT Specialist
An IT Specialist offers technical support and ensures the smooth operation of IT systems. This course provides an excellent basis for an IT Specialist who requires a broad understanding of networking, including routing, switching, and network security, all of which are covered by the course. An IT Specialist often configures and troubleshoots network devices, and this course prepares them with applicable skills in these areas. The course also covers automation and programmability, key components that are relevant to work in the modern IT environment. This course provides real-world networking scenarios which can be beneficial for an IT Specialist.
See salaries and explore the career path for IT Specialist
Network Security Analyst
A Network Security Analyst is responsible for protecting computer networks from cyber threats. This course is relevant as it includes security fundamentals as well as network automation, both of which help a Network Security Analyst in their work. A Network Security Analyst must be able to configure and troubleshoot Cisco devices, capabilities covered in great detail. A deep knowledge of network infrastructure, such as routing and switching, is essential for this role, and this course provides the necessary depth. For any Network Security Analyst, this course's coverage of secure network access control would be highly applicable. The training provided by this course will give someone entering this field an advantage.
See salaries and explore the career path for Network Security Analyst
Network Operations Center Analyst
A Network Operations Center Analyst monitors network performance and responds to incidents. The course will be highly relevant to a Network Operations Center Analyst because it provides deep knowledge of routing protocols and network security. Such an analyst needs to be able to understand network diagrams and configurations, something the course will assist with. The course will help a Network Operations Center Analyst who wishes to advance their understanding of modern networking, especially in enterprise-level architectures. The concepts taught in this course may be beneficial.
See salaries and explore the career path for Network Operations Center Analyst
Cybersecurity Analyst
A Cybersecurity Analyst is responsible for planning and carrying out security measures to protect an organization's computer networks. This course touches on several key areas that are relevant to cybersecurity including network security, secure network access control, and network device access control. A Cybersecurity Analyst benefits from having a strong understanding of networking fundamentals like routing and switching, and this course provides these skills. The course's coverage of enterprise infrastructure also helps them understand large-scale network design and security. The concepts taught in this course will be highly relevant for someone in a cybersecurity field.
See salaries and explore the career path for Cybersecurity Analyst
Cloud Network Engineer
A Cloud Network Engineer designs and manages networks in cloud computing environments. This course may be useful for a Cloud Network Engineer because it covers virtualization, SD-WAN, and network automation, all of which are essential to cloud networking. A strong foundation in traditional networking concepts, such as routing and switching, is also helpful for someone in this role and are included in this course. While this course focuses on Cisco technologies, the fundamental network concepts are transferable to other cloud platforms. This course may prepare you to tackle challenges in cloud networking. Individuals hoping to enter cloud networking will find this course helpful.
See salaries and explore the career path for Cloud Network Engineer
IT Consultant
An IT Consultant provides expert advice on how to use technology to meet business goals. This course may be useful for an IT Consultant since it builds a strong foundation in networking, including routing, switching, and security. An IT Consultant often needs to assess network infrastructure and recommend improvements, a task that requires comprehensive understanding of network design. While an IT consultant may not be involved with hands on implementation, the course provides useful insights for making sound recommendations. Those new to a career in IT consulting may benefit from the course's overview of modern networking technologies.
See salaries and explore the career path for IT Consultant
Technical Support Specialist
A Technical Support Specialist provides assistance to users of computer systems. This role often requires a good understanding of network fundamentals such as routing and IP addressing, which are covered in this course. This course also enables a Technical Support Specialist to troubleshoot network issues which they may encounter doing their job. This course may be useful to a Technical Support Specialist who wants to expand their understanding of networking and how it impacts users. Knowledge of network security, which is also part of this course, can benefit this role.
See salaries and explore the career path for Technical Support Specialist
Systems Engineer
A Systems Engineer focuses on the design, development, and implementation of complex systems. While this role is broad, this course provides a strong networking foundation. A Systems Engineer sometimes needs to configure and troubleshoot network devices which is a skill they can acquire in this course. Understanding network security, automation, and programmability is also useful to a Systems Engineer, and they are all addressed in depth. This course can serve as a starting point for a Systems Engineer who wishes to become proficient in the networking aspects of their work. The training provided here will be helpful.
See salaries and explore the career path for Systems Engineer
Telecommunications Specialist
A Telecommunications Specialist manages an organization's communication systems. This course may be useful for a Telecommunications Specialist as it provides a grounding in network fundamentals and enterprise level networking concepts. A Telecommunications Specialist needs to understand network configurations, and this course offers relevant practical skills. While this course may focus on computer networks, the underlying concepts are applicable to broader telecommunications infrastructures. This course may be useful for someone looking to advance in the telecommunications field.
See salaries and explore the career path for Telecommunications Specialist
Field Service Technician
A Field Service Technician provides on-site technical support and maintenance. This course may be useful to a Field Service Technician who is tasked with supporting the network infrastructure of clients. The course teaches network configuration as well as troubleshooting of Cisco devices. A field technician must understand routing, switching, and IP addressing, and this course covers these critical areas. This course can equip a technician with the on-site practical networking knowledge they may require. This course may provide specific benefits to a field tech.
See salaries and explore the career path for Field Service Technician
Data Center Technician
A Data Center Technician maintains the physical infrastructure of data centers. This course may be useful for a Data Center Technician due to the fact that it covers some aspects of network infrastructure, however this is only one of many skill sets required of this role. Data Center Technicians need to understand how devices are connected and how networks are configured, and they are partially covered in this course. This course may aid a technician looking to broaden their skillset. While this course is not primarily focused on the physical infrastructure of a data center, it is relevant.
See salaries and explore the career path for Data Center Technician

Reading list

We've selected two books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in CCNA 200-301 + CCNP/CCIE ENCOR 350-401 by Arash Deljoo.
Cover image
Putting Knowledge to Work
Save
Is the official certification guide for the CCNA 200-301 exam. It provides comprehensive coverage of all exam topics, including network fundamentals, IP addressing, routing, switching, and security. It valuable resource for both exam preparation and as a reference guide during the course. This book is commonly used as a textbook at academic institutions and by industry professionals.
Putting Knowledge to Work
Paperback
Check
Putting Knowledge to Work
Kindle Edition
Check
Cover image
Cisco CCNA Simplified
Save
Simplifies complex CCNA concepts, making it easier to understand the fundamentals of networking. It great resource for students who are new to networking or who struggle with the technical jargon. It provides clear explanations and real-world examples to help you grasp the key concepts. This book is more valuable as additional reading than it is as a current reference.
Cisco CCNA Simplified
Paperback
Check
Cisco CCNA Simplified
Kindle Edition
Check

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Effort
277.5 total hours
Via
Udemy
Instructor
Arash Deljoo
Language
English
Good to know
Provides a comprehensive curriculum covering both CCNA 200-301 and CCNP/ENCOR 350-401, offering a deep dive into networking fundamentals and advanced enterprise-level expertise
Offers hands-on labs and practical scenarios, enabling learners to develop real-world skills applicable to networking roles and challenges
Covers a wide range of topics, including routing, switching, IP addressing, network security, wireless technologies, virtualization, SD-WAN, and network automation, aligning with the objectives of the CCNA and CCNP exams
Begins with CCNA 200-301, which builds a solid foundation in networking fundamentals, making it suitable for those new to the field
Progresses to CCNP/ENCOR 350-401, which equips learners with in-depth knowledge of enterprise infrastructure and advanced networking concepts, catering to those seeking to enhance their expertise
Designed as a seamless learning journey, taking learners from foundational knowledge to advanced expertise in a cohesive manner
Share and help others discover this course.
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