CCNP Routing and Switching

The CCNP Routing and Switching certification is designed for network engineers who aspire to plan, implement, verify and troubleshoot local and wide-area enterprise networks.
The Cisco CCNP Routing and Switching certification program provides the education and training required to develop hands-on skills and best-practices.
This job-role-focused program utilizes lab-based learning and allows you to maximize your investment in your education and increase the value of your enterprise network.
The CCNP program can be completed as three separate modules.

  • 300-101 ROUTE
  • 300-115 SWITCH
  • 300-135 TSHOOT

The class consists of (44 hours) of in-depth explanations and examples and can be viewed on the computer or any MP4-compatible mobile device.
Covers topics relating to routing and switching protocols at the professional level including EIGRP, OSPF, BGP, IPv6, 802.1s MST, Private VLANs, and many other Routing and Switching features.
This course has been taught by Sikandar Shaik CCIEx3 (RS /SP/ SEC/)
Silent Features

  • Trained by expert Triple CCIE certified with 15 + years of training and working experience in production networks.
  • Covers Topics as per the Blueprint (In-depth Core Technology Training)
  • Provided with all Virtual Software’s required for Lab
  • Detailed Workbook free access to anyone (Includes presentations, Labs documented with Outputs & Mock labs)
  • Access to Pre-recorded Video recordings Over 220 lectures and 44 hours of content!

How to get your own copy of Video access

  • To get a copy of video Online Access, please send mail us at
  • You can also contact us on the following numbers if any queries
  • WhatsApp - +91 9985048840, +91 – 7036826345

Currently we are offering the below Courses in Video Trainings. You can also find some sample Videos at our YouTube Channel.

This course includes

  • 32 hours on-demand video (158 Lectures)
  • Full lifetime access
  • Access on mobile and TV
  • Certificate of Completion
  • Taught by Sikandar Shaik CCIEx3 (RS /SP/ SEC/)

What you'll learn

  • you'll be ready to configure routing protocols at a master level;
  • grasp the big-picture of worldwide Cisco network design;
  • fill in plenty of “knowledge gaps” left by the CCNA on routing protocols
  • Confidently sit for the 300-101 exam.


  • Basic understanding of concepts taught in ICND1/ICND2 or CCNA


  • This Course for CC course covers the material needed for the 300-101 Cisco ROUTE exam with more on real-world experience and detailed technical details with more Hands on labs.
  • Trained by expert Triple CCIE certified with 15 + years of training and working experience in production networks.
  • Covers Topics as per the Blueprint (In-depth Core Technology Training)
  • Provided with all Virtual Software’s required for Lab
  • Detailed Workbook free access to anyone (Includes presentations, Labs documented with Outputs & Mock labs)
  • Access to Pre-recorded Video recordings Over 158 lectures and 32 hours of content!
  • This course is lab-based and is focused on the technologies from Cisco CCNP Route/Switch (300-101).
  • Each Video is designed assist you in creating and verifying Cisco networks using GNS3 1.x
  • All of this can be done on a single computer without external hardware (no physical routers or switches required).
  • Provides training on how to create a practice environment for individuals interested in mastering networking technology through practicing hands on!

Who this course is for:

  • Network technician , Network engineer
  • Students who want to build on their CCNA level skill set to further a career in computer networking.
  • experienced networking professionals who are ready to advance their core routing, switching, and network troubleshooting skills and students with Cisco CCNA-level knowledge


Over 148 lectures and 30 hours of content!
Section 1: Introduction

  • CCNP Introduction
  • Building Routing table
  • Preview
  • Floating static-default routing
  • Floating static-default routing - Continued
  • Default CCNP Lab setup
  • Using GNS3 Simulation

Section 2: Default Routes in IGP

  • Advertising Default route
  • Default Route Advertisement-RIPV2
  • Default Route Advertisement- OSPF
  • Default Route Advertisement- EIGRP

 Section 3: Summarization- IPv4

  • summarization overview
  • summarization types
  • summarization calculation ex1
  • summarization shortcut
  • summarization EIGRP LAB

Section 4: EIGRP

  • Introduction to EIGRP
  • EIGRP Process
  • EIGRP metric
  • understanding FD and AD
  • Feasible condition

Section 5: EIGRP Optimization

  • EIGRP Loadbalancing-Equal cost
  • EIGRP Loadbalancing-Unequal cost
  • EIGRP Stuck-in-Active
  • EIGRP Stub

Section 6: Basic OSPF

  • OSPF-Introduction
  • OSPF Process-Stage 1-5
  • OSPF Process-Stage6-7
  • LAB-Verify Basic OSPF Process
  • Concept of Areas in OSPF
  • LAB-Multi-Area OSPF

Section 7: Redistribution

  • Redistribution-Introduction
  • EIGRP- RIP-Redistribution
  • OSPF RIP Redistribution
  • OSPF EIGRP Redistribution
  • Redistribution -Mocklab

Section 8: Routing Protocol Authentication

  • Authentication RIP
  • Authentication EIGRP
  • Authentication OSPF

Section 9: OSPF Advance

  • OSPF virtual links
  • LAB OSPF virtual links
  • OSPF network Types- DR-BDR
  • OSPF network Types- DR-BDR-Continued
  • LAB-OSPF Broadcast Multi-acccess network - DR-BDR
  • OSPF LSA Types

Section 10: OSPF Stubs

  • OSPF Stubs-Introduction
  • LAB-OSPF Stubs
  • OSPF Totally stub
  • LAB-OSPF Totally Stub
  • Not-so-stubby Area
  • LAB-Not-so-stubby Area
  • Totally Not-so-Stubby Area
  • Quick Review

Section 11: IPV6 basics

  • IPV6- Introduction
  • IPv6 Addressing
  • IPV6 Address types
  • IPV6 Static Addressing
  • IPV6 Layer 2 Options
  • IPv6 EUI-64 Format
  • Stateless Adress AutoConfiguration-SLAAC

Section 12: IPV6 routing

  • Static-Default Routing
  • RIPng
  • OSPFv3
  • EIGRP-IPv6

Section 13: IPV6 Redistribution

  • IPV6 RIPng -RIPng Redistribution
  • OSPFv3- RIPng Redistribution
  • EIGRP6- OSPFv3 Redistribution

Section 14: IPV6 Summarization

  • RIPng Summarization
  • EIGRP6 Summarization
  • OSFv3 Summarization

Section 15: Route Filtering Options

  • Introduction to Route Filtering
  • Passive Interface
  • LAB-Verify Passive interface
  • Distribution-List
  • LAB-Distribution List
  • IP Prefix-Lists
  • LAB-Verify Prefix-list
  • LAB-Verify Prefix-list-Continued

Section 16: Route-maps

  • Route-Maps-Introduction
  • LAB-Route-maps
  • LAB-Route-maps-Continued
  • Route-filtering using Route-maps

Section 17: Policy Based Routing

  • Policy Based Routing
  • PBR based on Source
  • PBR based on destination
  • PBR based on Services
  • PBR based on Packet size

Section 18: BGP Introduction

  • BGP Introduction
  • when BGP is more Appropriate
  • BGP options connectintg to Internet

Section 19: BGP Neighbors

  • understanding BGP neighbors
  • IBGP neighbors -LAB
  • BGP Split Horizon Rule
  • IBGP neighbors using loopbacks -LAB
  • IBGP neighbors using Loopback-LAB-Continuation

Section 20: Advance BGP neighbor options

  • BGP authentication
  • Peergroups
  • Route Reflectors

Section 21: External BGP

  • Basic EBGP configuration
  • Using nexthopself
  • EBGP using loopback –EBGPmultihop
  • BGP synchronization Rule

Section 22: BGP Attributes

  • Understanding BGP attibutes
  • ASpath-origin-nexthop
  • weight & local preference

Section 23: Weight and Local Preference

  • Path Manipulation using weight
  • path manipulation using Weight -continued
  • weight using routemaps-LAB
  • understanding IN OUT
  • using Local preference
  • Local Preference with Route-maps
  • BGP path selection process
  • Clear ip bgp sessions

Section 24: Layer 2 Wan Technologies

  • HDLC ppp
  • PPP authentication -PAP-CHAP
  • Verify PAP-CHAP Authentication
  • ppp multilink
  • Ethernet WAN (Metroethernet)
  • PPPoE - Theory-basic Configuration
  • Frame-Relay
  • Verify Basic Frame-Relay

Section 25: VPN technologies

  • Introduction to VPN networks
  • VPN over Internet
  • VPN models overview
  • Generic Routing encapsulation
  • Default Lab setup
  • LAB- GRE point to point Configuration
  • LAB- GRE point to point Configuration Advance
  • Drawbacks of GRE
  • Dynamic Multipoint VPN

Section 26: Access-Control-List

  • ACL Introduction
  • standard ACL1
  • Standard ACL-Continued
  • ACL Rules
  • Extended ACL -Configuration
  • Extended ACL -Verfication
  • Named ACL
  • Timebased ACL
  • IPv6 ACL

Section 27: Device Access security

  • login authentication
  • Login Password enhancements
  • External Authentication using AAA
  • External sever based Authentication -LAB

Section 28: IP Services

  • DHCP-Overview
  • Router as DHCP server
  • DHCP Relay Agent
  • DHCPv6 Configuration
  • DHCPv6 Relay Agent
  • Logging on Cisco Routers


This course includes

  • 14 hours on-demand video
  • Full lifetime access
  • Access on mobile and TV
  • Certificate of Completion

What you'll learn

  • Enables you to succeed on the exam the first time
  • Helping you to identify areas of weakness and improve both your conceptual knowledge and hands-on skills.
  • To plan, operate and troubleshoot complex, converged network infrastructures on a wide variety of Cisco equipment.
  • get skills to configure, manage and troubleshoot LAN, WAN with Expand on IPv6, and Cisco StackWise, VSS, and DMVPN technologies.


  • Good understanding on CCNA Routing and Switching Knowledge


  • Implementing Cisco IP Switched Networks (SWITCH 300-115) is a qualifying exam for the Cisco CCNP Routing and Switching and CCDP certifications.
  • Trained by expert Triple CCIE certified with 15 + years of training and working experience in production networks.
  • Covers Topics as per the Blueprint (In-depth Core Technology Training)
  • Provided with all Virtual Software's required for Lab
  • Detailed Workbook free access to anyone (Includes presentations, Labs documented with Outputs & Mock labs)
  • Access to Pre-recorded Video recordings Over 158 lectures and 32 hours of content!
  • The SWITCH 300-115 exam certifies the switching knowledge and skills of successful candidates. They are certified in planning, configuring, and verifying the implementation of complex enterprise switching solutions that use the Cisco Enterprise Campus Architecture.

Who this course is for:

  • Students who want to prepare for CCNP switch exams.
  • Career-advancement opportunities

How to get your own copy of Video access

  • To get a copy of video Online Access, please send mail us at
  • You can also contact us on the following numbers if any queries
  • WhatsApp - +91 9985048840, +91 – 7036826345


Over 75 lectures and 14 hours of content!

Section 1: Basic Switching

  • How Switch learns MAC
  • Broadcast Domain & Collision Domain
  • switch basic Configuration
  • ARP resolution WAN
  • CEF
  • CDP
  • LLDP

Section 2: Vlan Trunks

  • Vlan introduction
  • Static vlan
  • Dynamic vlan
  • Trunking
  • Trunking lab
  • Extended and voice vlan
  • Native VLAN

Section 3: Inter Vlan routing

  • Inter vlan routing legacy
  • Inter vlan routing subinterfaces
  • Inter vlan routing mls

Section 4: Vlan trunking Protocol

  • VTP
  • Verify VTP lab pre-requirments
  • VTP configuration
  • VTP pruning
  • VTP prune list and manual pruning

Section 5: VTP version 3

  • VTP version 3 overview
  • VTP version 3 lab-Verify VLAN
  • VTP version 3 lab-verify MSTP-Private VLAN

Section 6: Spanning tree Protocol

  • How STP works
  • How STP works 2
  • Campus model
  • Selecting Root bridge
  • Tuning STP Cost-priority and timers

Section 7: Optimizing STP

  • Etherchannel
  • Spaning tree portfast
  • BPdu gaurd and filter
  • BPDU guard lab
  • Root guard
  • loopguard
  • UDLD
  • Errdisable recovery

Section 8: STP Flavors

  • Uplink backbone fast
  • RSTP
  • Rstp lab
  • Pvst
  • MSTP introduction
  • MSTP lab
  • Tuning MSTP port proirty- cost

Section 9: SPAN-RSPAN

  • Span Introduction
  • Span example2
  • Rspan1
  • Rspan2
  • SPAN conditions and Restrictions

Section 10: First Hop Redundancy

  • First Hop Redundancy _ introduction
  • FHRP protocols differences
  • HSRP lab - Basic
  • HSRP lab - Advance Options
  • HSRP load sharing using Multiple groups
  • VRRP- Lab
  • GLBP - lab
  • GLBP - Track and load balancing

Section 11: Device Access security

  • login authentication
  • External authentication using AAA
  • External sever based Authentication –LAB

 Section 12: layer 2 Security

  • layer 2 security-Introduction
  • Mac flooding attack-Portsecurity
  • MAC spoofing- Port security
  • LAB-port-security
  • DHCP spoofing attack- DHCP snooping
  • LAB-DHCP snooping
  • IP spoofing attack - IP source Guard
  • LAB- IP source Guard
  • Arp spoofing- DAI
  • LAB Dynamic ARP inspection
  • storm control
  • Private VLAN
  • LAB – Private VLAN


Exam Description:
Troubleshooting and Maintaining Cisco IP Networks v2 (TSHOOT 300-135) is a 120-minute qualifying exam with 15‒25 questions for the Cisco CCNP certification. The TSHOOT 300-135 exam certifies that the successful candidate has the knowledge and skills necessary to

  • Plan and perform regular maintenance on complex enterprise routed and switched networks
  • Use technology-based practices and a systematic ITIL-compliant approach to perform network troubleshooting

The following topics are general guidelines for the content that is likely to be included on the exam.

However, other related topics may also appear on any specific version of the exam. To better reflect the contents of the exam and for clarity, the following guidelines may change at any time without notice.


5%  1.0  Network Principles

1.1  Use Cisco IOS troubleshooting tools
1.1.a  Debug, conditional debug
1.1.b  Ping and trace route with extended options
1.2    Apply troubleshooting methodologies 
1.2.a  Diagnose the root cause of networking issues (analyze symptoms, identify and describe root cause)
1.2.b  Design and implement valid solutions
1.2.c  Verify and monitor resolution

40%  2.0  Layer 2 Technologies

2.1  Troubleshoot switch administration
2.1.a   SDM templates
2.1.b   Managing MAC address table 
2.1.c  Troubleshoot Err-disable recovery
2.2  Troubleshoot Layer 2 protocols
2.2.a   CDP, LLDP
2.2.b   UDLD
2.3  Troubleshoot VLANs
2.3.a   Access ports
2.3.b   VLAN database
2.3.c  Normal, extended VLAN, voice VLAN
2.4  Troubleshoot trunking
2.4.a   VTPv1, VTPv2, VTPv3, VTP pruning
2.4.b   dot1Q 
2.4.c  Native VLAN
2.4.d  Manual pruning
2.5  Troubleshoot EtherChannels
2.5.a   LACP, PAgP, manual
2.5.b   Layer 2, Layer 3
2.5.c  Load balancing
2.5.d  EtherChannel misconfiguration guard
2.6  Troubleshoot spanning tree
2.6.a   PVST+, RPVST +, MST
2.6.b   Switch priority, port priority, path cost, STP timers
2.6.c  PortFast, BPDUguard, BPDUfilter
2.6.d  Loopguard, Rootguard
2.7  Troubleshoot other LAN switching technologies
2.7.a   SPAN, RSPAN
2.8  Troubleshoot chassis virtualization and aggregation technologies
2.8.a   Stackwise
40%  3.0  Layer 3 Technologies
3.1    Troubleshoot IPv4 addressing and subnetting
3.1.a  Address types (Unicast, broadcast, multicast, and VLSM)
3.1.b  ARP
3.1.c  DHCP relay and server 
3.1.d  DHCP protocol operations
3.2    Troubleshoot IPv6 addressing and subnetting
3.2.a  Unicast
3.2.b  EUI-64
3.2.c  ND, RS/RA
3.2.d  Autoconfig (SLAAC)
3.2.e  DHCP relay and server 
3.2.f  DHCP protocol operations
3.3    Troubleshoot static routing
3.4    Troubleshoot default routing
3.5    Troubleshoot administrative distance
3.6    Troubleshoot passive interfaces
3.7    Troubleshoot VRF lite
3.8    Troubleshoot filtering with any protocol
3.9    Troubleshoot between any routing protocols or routing sources
3.10 Troubleshoot manual and auto summarization with any routing protocol
3.11 Troubleshoot policy-based routing
3.12 Troubleshoot suboptimal routing
3.13 Troubleshoot loop prevention mechanisms
3.13.a  Route tagging, filtering
3.13.b  Split-horizon
3.13.c  Route poisoning
3.14 Troubleshoot RIPv2
3.15 Troubleshoot EIGRP neighbor relationship and authentication
3.16 Troubleshoot loop free path selection
3.16.a  RD, FD, FC, successor, feasible successor
3.17 Troubleshoot EIGPR operations
3.17.a  Stuck in active
3.18 Troubleshoot EIGRP stubs
3.19 Troubleshoot EIGRP load balancing
3.19.a  Equal cost
3.19.b  Unequal cost
3.20  Troubleshoot EIGRP metrics
3.21  Troubleshoot EIGRP for IPv6
3.22  Troubleshoot OSPF neighbor relationship and authentication
3.23  Troubleshoot network types, area types, and router types
3.23.a  Point-to-point, multipoint, broadcast, nonbroadcast
3.23.b  LSA types, area type: backbone, normal, transit, stub, NSSA, totally stub
3.23.c  Internal router, backbone router, ABR, ASBR
3.23.d  Virtual link
3.24  Troubleshoot OSPF path preference
3.25  Troubleshoot OSPF  operations
3.26  Troubleshoot OSPF for IPv6
3.27  Troubleshoot BGP peer relationships and authentication 
3.27.a  Peer group
3.27.b  Active, passive
3.27.c  States and timers
3.28 TroubleshooteBGP
3.28.a  eBGP
3.28.b  4-byte AS number
3.28.c  Private AS
5%  4.0  VPN Technologies
4.1  Troubleshoot GRE
5%  5.0  Infrastructure Security
5.1    Troubleshoot IOS AAA using local database 
5.2    Troubleshoot device access control
5.2.a  Lines (VTY, AUX, console)
5.2.b  Management plane protection
5.2.c  Password encryption
5.3    Troubleshoot router security features
5.3.a  IPv4 access control lists (standard, extended, time-based)
5.3.b  IPv6 traffic filter
5.3.c  Unicast reverse path forwarding
5%  6.0  Infrastructure Services
6.1  Troubleshoot device management
6.1.a   Console and VTY
6.1.b  Telnet, HTTP, HTTPS, SSH, SCP
6.1.c  (T)FTP
6.2  Troubleshoot SNMP
6.2.a  v2
6.2.b  v3
6.3  Troubleshoot logging
6.3.a  Local logging, syslog, debugs, conditional debugs
6.3.b  Timestamps
6.4  Troubleshoot Network Time Protocol(NTP)
6.4.a  NTP master, client, version 3, version 4
6.4.b  NTP authentication
6.5  Troubleshoot IPv4 and IPv6 DHCP
6.5.a  DHCP client, IOS DHCP server, DHCP relay
6.5.b  DHCP options (describe)
6.6  Troubleshoot IPv4 Network Address Translation (NAT)
6.6.a  Static NAT, Dynamic NAT, PAT
6.7  Troubleshoot SLA architecture
6.8  Troubleshoot tracking objects
6.8.a  Tracking objects
6.8.b  Tracking different entities (for example, interfaces, IPSLA results)