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CCNP - Enterprise

CCNP Enterprise Course in Kollam (Updated 2025)

The Cisco Certified Network Professional (CCNP) Enterprise certification is an advanced-level qualification offered by Cisco Systems. Building on foundational networking skills, this certification validates your ability to design, implement, verify, and troubleshoot complex enterprise networks using the latest Cisco technologies.

CCNP Course Description

Our CCNP Enterprise Course is tailored for networking professionals ready to advance their careers by mastering sophisticated enterprise network solutions. This in-depth program covers advanced routing and switching protocols, robust network security measures, software-defined networking (SDN), and network automation.

Through a blend of theoretical knowledge and hands-on practice, you will learn to configure, manage, and optimize network environments that meet the rigorous demands of modern businesses.

What You Will Learn?

Advanced Routing & Switching: Delve into complex routing protocols such as OSPF, EIGRP, and BGP, along with advanced switching concepts essential for large-scale network infrastructures.
Enterprise Network Design: Learn how to architect scalable, resilient, and secure networks capable of supporting high-performance enterprise operations.
Network Automation & Programmability: Gain proficiency in modern automation tools and scripting techniques to streamline network management and reduce manual errors.
Software-Defined Networking (SDN): Explore SDN principles and learn how to implement programmable networks that enhance operational agility and efficiency.
Enhanced Network Security: Understand and apply advanced security strategies to protect network integrity and safeguard critical data against emerging cyber threats.

CCNP Enterprise Course Benefits

Completing the CCNP Enterprise Course empowers you with the expertise to tackle today’s complex networking challenges. With this certification, you'll not only enhance your technical acumen but also significantly boost your career prospects by positioning yourself as an authority in enterprise networking. Upon earning the CCNP Enterprise credential, you will be adept at:

Designing and deploying secure, scalable, and efficient enterprise networks.
Troubleshooting and resolving critical network issues in dynamic environments.
Leveraging automation and SDN technologies to optimize network performance.
Implementing advanced security protocols to defend against evolving cyber threats.

Frequently Asked Questions (FAQ)

1. What is the CCNP Enterprise Course?

The CCNP Enterprise Course is an advanced certification program that focuses on designing, implementing, and troubleshooting complex enterprise networks using the latest Cisco technologies.
2. Who should enroll in the CCNP Enterprise Course?

This course is ideal for networking professionals looking to advance their careers, IT specialists aiming to enhance their expertise in enterprise environments, or anyone with a foundational knowledge of networking seeking to upscale their skills.
3. What are the prerequisites for the CCNP Enterprise Course?

While having a foundational understanding of networking is beneficial, a valid CCNA certification is typically recommended but not mandatory.
4. What topics are covered in this course?

The course includes advanced routing and switching, enterprise network design, network automation and programmability, software-defined networking (SDN), and advanced network security measures.
5. What is the duration of the CCNP Enterprise Course?

The duration varies by training mode, but the program typically spans several weeks to a few months, encompassing both theoretical lessons and practical lab sessions.
6. What type of training facility is provided?

Fariz Networks offers training at a state-of-the-art centre in Kollam, equipped with genuine Cisco routers and switches and a 24x7 lab facility for continuous practical learning.
7. Will the training include hands-on labs?

Yes, the course is designed with extensive hands-on labs and real-world simulation exercises to ensure you gain practical experience in configuring and troubleshooting enterprise networks.
8. How is the course curriculum designed?

Our curriculum is meticulously aligned with the latest CCNP Certification exam blueprints and the new CCNP syllabus provided by Cisco, ensuring up-to-date and industry-relevant content.
9. Do you offer placement assistance after the course?

Yes, we provide placement assistance and guidance to help you connect with top industry employers and support your career advancement.
10. What certifications can I pursue after completing the CCNP Enterprise Course?

After completing the course, you can further your career by pursuing advanced Cisco certifications in areas such as network security or specialized enterprise solutions, in addition to leveraging the CCNP Enterprise credential.

Join Course

Lectures: 40
Duration: 300 Hours
Subject: Networking
Level: Advanced
Certificate: Yes

CCNP Syllabus

ENCORE 350-401

ENARSI 300-401

1. CCNP Certification Overview
2. Routing Foundations
3. Floating static/Default Routes
4. LAB: Static Routing (verify Floating static routes, longest match)
5. Dynamic Routing: RIPv2
6. LAB: DYNAMIC ROUTING USING RIPV2
7. EIGRP
8. LAB: Verifying EIGRP PROCESS
9. EIGRP Feasible Condition
10. ElGRP Stuck in Active
11. EIGRP load Balancing
12. LAB : EGRP LOAD BALANCING (equal/ unequal cost)
13. EIGRP sutb
14. LAB: EGRP STUB Verification
15. Advertising Default routes in IGP
16. LAB: DEFAULT ROUTE IN RIP v2
17. LAB: DEFAULT ROUTINE WITH EIGRP
18. LAB: DEFAULT ROUTE IN OSPF
19. IPV4 Summarization
20. LAB: EIGRP Summarization
21. LAB: RIPV2 Summarization
22. Redistribution
23. LAB REDISTRIBUTION BETWEEN RIP AND EIGRP
24. LAB REDISTRIBUTION BETWEEN RIP AND OSPF
25. LAB REDISTRIBUTION BETWEEN EIGRP 100 AND OSPF

26. LAB Redistribution between EIGRP protocol with different as numbers

27. OSPF

28. LAB: VERIFYING BASIC OSPF with single Area

29. OSPF Areas

30. LAB: BASIC OSPF IMPLEMENTATION using MULTIPLE AREA

31. OSPF Summarization

32. OSPF Virtual-link

33. LAB : OSPF VIRTUAL-LINKS

34. OSPF network types

35. LAB: OSPF DR /BDR ELECTION OVER ETHERNET

36. OSPF LSA Types

37. OSPF Stubs

38. LAB : OSPF STUBS AND TOTALLY STUB

39. Not-so-stubby areas

40. LAB: NSSA and Totally NSSA

41. Routing Protocol Authentication

42. LAB: RIPv2 AUTHENTICATION

43. EIGRP Authentication

44. LAB : OSPF AUTHENTICATION (Interface level)

45. OSPF Authentication process-level

46. IPV6

47. LAB: Basic configuration of IPV6

48. IPV6 Routing

49. LAB: IPV6 Routing (static / default)

50. LAB: RIPng

51. LAB. OSPFv3

52. LAB. EIGRPv6

53. LAB: ADVANCE IPV6 LAB CONFIGURATIONS

54. IPV6 Redistribution

55. LAB: Redistribution RIPng - RIPng

56. LAB: OSPFv3- RIPng Redistribution

57. Ipv6 layer2

58. EUI-64

59. LAB: Stateless Address Auto-configuration (SLAAC)

60. Ipv6 STATEFULL Autoconfiguration (Router as DHCP)

61. LAB: verifying IPV6 layer 2 Options

62. Route Filtering methods

63. LAB: Passive Interface in RIPv2

64. Distribution lists using ACL

65. IP prefix-lists

66. Offset-list

67. Route-maps

68. Policy Based Routing

69. LAB: POLICY-BASED ROUTING

70. LAB: REDISTRIBUTION USING ROUTE-MAPS

71. LAB: FILTERING ROUTES USING ROUTE-MAPS

72. BGP Concepts & Terminology

73. Types of ISP Connections

74. Options of BGP connecting to Internet

75. BGP Neighbours

76. LAB: Basic IBGP Peering

77. BGP Split- Horizon Rule

78. LAB: IBGP peering using loopbacks

79. Configuring BGP Authentication on Cisco I0S

80. Peer groups

81. Lab- Peer groups

82. Route- reflector

83. Lab : route- reflector

84. Lab: route- reflector using loopback

85. Password reverting on cisco routers

86. EBGP Configuration

87. BGP next- hop behaviour

88. LAB: Basic EBGP Configuration & Verify Next-hop Behaviour

89. EBGP peering Redundancy (using EBGP multihop)

90. LAB: EBGP using Loopback interfaces ( redundancy)

91. Synchronization rule

92. LAB: Verify BGP Synchronization Rule

93. BGP Attributes overview

94. AS-path /next-hop/Orgin attributes

95. Weight Attribute

96. Lab: Using Weight Attribute

97. Lab Weight Attribute using Route-maps

98. Local Preference

99. Lab: Using Local Preference

100. Lab : Local preference using Route-maps

101. BGP Path Selection Process

102. Layer 2 WAN

103. PPP Authentication

104. LAB: PPP Authentication using CHAP

105. LAB: PPP Authentication using PAP

106. Ethernet WAN (Metro Ethernet)

107. PPPoE

108. Access-control-list

109. LAB : STANDARD ACCESS-LIST

110. LAB: EXTENDED ACCESS-LIST

111. Named ACL

112. LAB: STANDARD NAMED ACL

113. LAB: NAMED EXTENDED ACL

114. Time based ACL

115. LAB-2 : Time Based ACL

116. Authentication using external servers (AAA)

117. LAB: AAA Authentication

118. DHCP

119. LAB: ROUTER As DHCP SERVER

120. DHCP relay Agent (IP helper address)

121. LAB: DHCP_Relay Agent (between VLAN)

122. DHCPv6

123. LAB : DHCP V6

124. LAB: DHCP V6 Relay Agent

125. Network Address Translation

126. LAB: STATIC NAT

127. LAB: Dynamic NAT

128. LAB-3 PORT ADDRESS TRANSLATION

129. LAB-4 PORT ADDRESS TRANSLATION using Exit Interface

130. Logging on Cisco Routers

131. LAB : Logging on Cisco Routers

132. Network time protocol

133. LAB : Network Time Protocol

134. SNMP v2/v3

135. IP Service level Agreement

136. LAB : IP SLA using static route: (reliable Backup static routes)

137. Auto-negotiation, Speed, and Duplex

138. Virtual LAN

139. LAB -Verify VLAN

140. Trunking

141. LAB: Trunking

142. DTP (DYNAMIC TRUNKING PROTOCOL)

143. NATIVE VLAN

144. Inter-VLAN Routing options

145. Inter- VLAN routing using Separate Physical Gateways

146. Inter- VLAN routing using sub-interfaces

147. Inter- VLAN routing using Multilayer switch

148. Extended VLAN

149. Voice VLAN

150. VLAN Trunking Protocol

151. LAB: VTP

152. VTP Version 3

153. LAB: VTP Version 3

154. VTP Pruning

155. LAB: VTP Pruning

156. Spanning- tree Protocol

157. LAB: VERIFYING SPANNING- TREE

158. LAB: Tuning STP (cost/probity Timers)

159. Hierarchical Campus Model

160. STP: Selecting Root Bridge

161. LAB: Per VLAN STP

162. Ether-channel

163. LAB: Configuring Ether-Channel Using Pagp Protocol Negotiation

164. Layer 3 Ether-channel

165. Spanning-tree port fast

166. LAB: BPDU Guard (interface & Global mode)

167. LAB: BPDU filter (interface level)

168. LAB : Root Guard

169. UDLD and Loopguard

170. Err disable Recovery options

171. Spanning-tree uplink fast/backbone fast

172. Rapid STP

173. Per VLAN STP (PVST)

174. Multiple STP

175. LAB: MSTP (MULTILPLE SPANNING-TREE) / Tuning MSTP

176. SPAN/RSPAN

177. Using CDP /LLDP

178. LAB: VERIFY CDP

179. Layer 2 Security

180. Device Security using AAA (TACACS+ and Radius)

181. Lab: AAA Authentication using External servers

182. Understanding switch security issues

183. Port security

184. Lab: Port Security

185. DHCP snooping

186. LAB : DHCP Snooping

187. LAB : IP Source Guard

188. LAB : Dynamic ARP inspection

189. Storm control

190. Private VLAN

191. LAB: Private VLAN

192. 1st Hop Redundancy Protocols

193. LAB: HSRP

194. LAB: VRRP

195. LAB: GLBP

Quality of service

196. Introduction

197. Identify Qos Models

198. Modular Qos CLI

199. Implementing Qos Policy using MQC

200. Classification and Marking

201. Using NBAR

202. LAB: Classification and Marking

203. LAB: Marking-Re-marking

204. Congestion Management using Queuing

205. LAB: CBWFQ - Bandwidth Reservations

206. CBWFQ-Bandwidth percent

207. LAB: CLASS-BASED WEIGHTED FAIR QUEUEING (CBWFQ)

208. LAB: bandwidth Reservations with priority

209. LLQ _ BANDWIDTH PERCENT

210. LOW LATENCY QUEUEING (LLQ)

211. Congestion Avoidance

212. Class based WRED - IP precedence

213. WIRED – CBWREB_DSCP based

214. Traffic policing & Shaping

215. LAB-1: Traffic POLICING

216. LAB 2: Traffic Policing

217. Configure Basic setup for VPN labs

218. Generic Routing Encapsulation

219. LAB : GRE POINT TO POINT TUNNELS

220. Site-to-site IPSec VPN

221. Dynamic Multi-point VPN

222. Modern Service Provider networks (VPN)

223. VPN Models

224. Multi-Protocol label Switching

225. MPLS labels

226. Label Distribution protocol

227. CONFIUGURING LDP

228. MPLS LDP Troubleshooting

229. LAB MPLS LDP PEERING

230. MPLS Layer 3 VPNs

231. Architecture

232. Virtualization

233. Automation

View Full Syllabus View Less

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