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CCNP

CCNP(Routing & Switching)

Course Objectives: CCNP is professional level certification in routing switching technologies offered by Cisco. After completion of CCNP Training, candidate will be able to plan, implement, verify and troubleshoot local and wide-area enterprise Cisco networks. In CCNP Certification Training, there modules will be covered i.e. Route, Switch and Tshoot.

CCNP Training Duration:

TrackRegular Track Weekend (Sat & Sun)
Duration3 Months 5 Months
Hours 2 hours a day 3 hours
Modules Single Module Two Modules Three Modules

Module 1 Implementing Cisco IP Routing (300-101)
Exam Description

Implementing Cisco IP Routing (ROUTE 300-101) is a 120-minute qualifying exam with 50‒60 questions for the Cisco CCNP and CCDP certifications. The ROUTE 300-101 exam certifies the routing knowledge and skills of successful candidates. They are certified in using advanced IP addressing and routing in implementing scalable and highly secure Cisco routers that are connected to LANs, WANs, and IPv6. The exam also covers the configuration of highly secure routing solutions to support branch offices and mobile workers. 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.

Course Outline

1.0 Network Principles

Lesson 1
  • 1.1 Identify Cisco Express Forwarding concepts
  • 1.1.a FIB
  • 1.1.b Adjacency table
  • 1.2 Explain general network challenges
  • 1.2.a Unicast
  • 1.2.b Out-of-order packets
  • 1.2.c Asymmetric routing
  • 1.3 Describe IP operations
  • 1.3.a ICMP Unreachable and Redirects
  • 1.3.c TTL
  • 1.4 Explain TCP operations
  • 1.4.a IPv4 and IPv6 (P)MTU
  • 1.4.b MSS
  • 1.4.c Latency
  • 1.4.d Windowing
  • 1.4.e Bandwidth-delay product
  • 1.4.f Global synchronization
  • 1.5 Describe UDP operations
  • 1.5.a Starvation
  • 1.5.b Latency
  • 1.6 Recognize proposed changes to the network
  • 1.6.a Changes to routing protocol parameters
  • 1.6.b Migrate parts of the network to IPv6
  • 1.6.c Routing protocol migration

40% 3.0 Layer 3 Technologies

Lesson 3
  • 3.1 Identify, configure, and verify 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 Identify 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 Configure and verify static routing
  • 3.4 Configure and verify default routing
  • 3.5 Evaluate routing protocol types
  • 3.5.a Distance vector
  • 3.5.b Link state
  • 3.5.c Path vector
  • 3.6 Describe administrative distance
  • 3.7 Troubleshoot passive interfaces
  • 3.8 Configure and verify VRF lite
  • 3.9 Configure and verify filtering with any protocol
  • 3.10 Configure and verify redistribution between any routing protocols or routing sources
  • 3.11 Configure and verify manual and autosummarization with any routing protocol
  • 3.12 Configure and verify policy-based routing
  • 3.13 Identify suboptimal routing
  • 3.14 Explain ROUTE maps
  • 3.15 Configure and verify loop prevention mechanisms
  • 3.15.a Route tagging and filtering
  • 3.15.b Split-horizon
  • 3.15.c Route poisoning
  • 3.16 Configure and verify RIPv2
  • 3.17 Describe RIPng
  • 3.18 Describe EIGRP packet types
  • 3.19 Configure and verify EIGRP neighbor relationship and authentication
  • 3.20 Configure and verify EIGRP stubs
  • 3.21 Configure and verify EIGRP load balancing
  • 3.21.a Equal cost
  • 3.21.b Unequal cost
  • 3.22 Describe and optimize EIGRP metrics
  • 3.23 Configure and verify EIGRP for IPv6
  • 3.24 Describe OSPF packet types
  • 3.25 Configure and verify OSPF neighbor relationship and authentication
  • 3.26 Configure and verify network types, area types, and router types
  • 3.26.a Point-to-point, multipoint, broadcast, nonbroadcast
  • 3.26.b LSA types, area type: backbone, normal, transit, stub, NSSA, totally stub
  • 3.26.c Internal router, backbone router, ABR, ASBR
  • 3.26.d Virtual link
  • 3.27 Configure and verify OSPF path preference
  • 3.28 Configure and verify OSPF operations
  • 3.29 Configure and verify OSPF for IPv6
  • 3.30 Describe, configure, and verify BGP peer relationships and authentication
  • 3.30.a Peer group
  • 3.30.b Active, passive
  • 3.30.c States and timers
  • 3.31 Configure and verify eBGP (IPv4 and IPv6 address families)
  • 3.31.a eBGP
  • 3.31.b 4-byte AS number
  • 3.31.c Private AS
  • 3.32 Explain BGP attributes and best-path selection

10% 2.0 Layer 2 Technologies

Lesson 2
  • 2.1 Configure and verify PPP
  • 2.1.a Authentication (PAP, CHAP)
  • 2.1.b PPPoE (client side only)
  • 2.2 Explain Frame Relay
  • 2.2.a Operations
  • 2.2.b Point-to-point
  • 2.2.c Multipoint

4.0 VPN Technologies

Lesson 4
  • 4.1 Configure and verify GRE
  • 4.2 Describe DMVPN (single hub)
  • 4.3 Describe Easy Virtual Networking (EVN)

5.0 Infrastructure Security

Lesson 5
  • 5.1 Describe IOS AAA using local database
  • 5.2 Describe device security using IOS AAA with TACACS+ and RADIUS
  • 5.2.a AAA with TACACS+ and RADIUS
  • 5.2.b Local privilege authorization fallback
  • 5.3 Configure and verify device access control
  • 5.3.a Lines (VTY, AUX, console)
  • 5.3.b Management plane protection
  • 5.3.c Password encryption
  • 5.4 Configure and verify router security features
  • 5.4.a IPv4 access control lists (standard, extended, time-based)
  • 5.4.b IPv6 traffic filter
  • 5.4.c Unicast reverse path forwarding

6.0 Infrastructure Services

Lesson 6
  • 6.1 Configure and verify device management
  • 6.1.a Console and VTY
  • 6.1.b Telnet, HTTP, HTTPS, SSH, SCP
  • 6.1.c (T)FTP
  • 6.2 Configure and verify SNMP
  • 6.2.a v2
  • 6.2.b v3
  • 6.3 Configure and verify logging
  • 6.3.a Local logging, syslog, debugs, conditional debugs
  • 6.3.b Timestamps

Module 2 Implementing Cisco IP Switched Networks (300-115)
Exam Description

Implementing Cisco IP Switched Networks (SWITCH 300-115) is a 120-minute qualifying exam with 45‒55 questions for the Cisco CCNP and CCDP certifications. 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. The SWITCH exam also covers highly secure integration of VLANs and WLANs. 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.

Course Outline

1.0 Layer 2 Technologies

Lesson 1
  • 1.1 Configure and verify switch administration
  • 1.1.a SDM templates
  • 1.1.b Managing MAC address table
  • 1.1.c Troubleshoot Err-disable recovery
  • 1.2 Configure and verify Layer 2 protocols
  • 1.2.a CDP, LLDP
  • 1.2.b UDLD
  • 1.3 Configure and verify VLANs
  • 1.3.a Access ports
  • 1.3.b VLAN database
  • 1.3.c Normal, extended VLAN, voice VLAN
  • 1.4 Configure and verify trunking
  • 1.4.a VTPv1, VTPv2, VTPv3, VTP pruning
  • 1.4.b dot1Q
  • 1.4.c Native VLAN
  • 1.4.d Manual pruning
  • 1.5 Configure and verify EtherChannels
  • 1.5.a LACP, PAgP, manual
  • 1.5.b Layer 2, Layer 3
  • 1.5.c Load balancing
  • 1.5.d EtherChannel misconfiguration guard
  • 1.6 Configure and verify spanning tree
  • 1.6.a PVST+, RPVST+, MST
  • 1.6.b Switch priority, port priority, path cost, STP timers
  • 1.6.c PortFast, BPDUguard, BPDUfilter
  • 1.6.d Loopguard and Rootguard
  • 1.7 Configure and verify other LAN switching technologies
  • 1.7.a PAN, RSPAN
  • 1.8 Describe chassis virtualization and aggregation technologies
  • 1.8.a Stackwise

2.0 Infrastructure Security

Lesson 2
  • 2.1 Configure and verify switch security features
  • 2.1.a DHCP snooping
  • 2.1.b IP Source Guard
  • 2.1.c Dynamic ARP inspection
  • 2.1.d Port security
  • 2.1.e Private VLAN
  • 2.1.f Storm control
  • 2.2 Describe device security using Cisco IOS AAA with TACACS+ and RADIUS
  • 2.2.a AAA with TACACS+ and RADIUS
  • 2.2.b Local privilege authorization fallback

3.0 Infrastructure Services

Lesson 3
  • 3.1 Configure and verify first-hop redundancy protocols
  • 3.1.a HSRP
  • 3.1.b VRRP
  • 3.1.c GLBP

Module 3 Troubleshooting and Maintaining Cisco IP Networks v2 (300-135) ( 1 Month)
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.

Course Outline

1.0 Network Principles

Lesson 1
  • 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

3.0 Layer 3 Technologies

Lesson 3
  • 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 autosummarization 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 Troubleshoot eBGP
  • 3.28.a eBGP
  • 3.28.b 4-byte AS number
  • 3.28.c Private AS

2.0 Layer 2 Technologies

Lesson 2
  • 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

4.0 VPN Technologies

Lesson 4
  • 4.1 Troubleshoot GRE

5.0 Infrastructure Security

Lesson 5
  • 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

6.0 Infrastructure Services

Lesson 6
  • 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)
  • live projects
  • Assignments
    Students will be given assignments after completion of each topic. Assignment helps one to think professionally, to gather data and to draw conclusions from the data gathered. Students are advised to be regular in the class and complete their assignments on time.
  • team projects
    For each individual course, students would be provided with sample projects. After reviewing the performance on the given projects, the best selected candidates will get a chance to work on live projects.
  • class participation
    'Participation' is the most important element to grow and learn more. Students should keep their minds active in each lecture to get the best of knowledge and if they come up with any queries, they can send a mail for the same. Keep clearing your doubts as and when it comes!