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[FreeCoursesOnline.Me] CBT Nuggets - Cisco CCNP Enterprise ENSLD [300-420]

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文件列表
  1. 1. Design an IPv4 and IPv6 Addressing Scheme/1. Introducing IPv4 Address Schemes.mp412.14MB
  2. 1. Design an IPv4 and IPv6 Addressing Scheme/10. Stateless and Stateful Configuration.mp438.08MB
  3. 1. Design an IPv4 and IPv6 Addressing Scheme/11. Configure IPv6 Addresses.mp450.35MB
  4. 1. Design an IPv4 and IPv6 Addressing Scheme/12. Summarizing IPv6 Addressing.mp44.53MB
  5. 1. Design an IPv4 and IPv6 Addressing Scheme/2. An IPv4 Refresher.mp464.79MB
  6. 1. Design an IPv4 and IPv6 Addressing Scheme/3. Designing a Basic Subnet.mp442MB
  7. 1. Design an IPv4 and IPv6 Addressing Scheme/4. Designing for an Enterprise.mp450.02MB
  8. 1. Design an IPv4 and IPv6 Addressing Scheme/5. Considerations of VLSM.mp440.96MB
  9. 1. Design an IPv4 and IPv6 Addressing Scheme/6. Summarizing IPv4 Addressing.mp44.31MB
  10. 1. Design an IPv4 and IPv6 Addressing Scheme/7. Introducing IPv6 Addressing Schemes.mp410.19MB
  11. 1. Design an IPv4 and IPv6 Addressing Scheme/8. IPv6 Address Structure.mp439.85MB
  12. 1. Design an IPv4 and IPv6 Addressing Scheme/9. IPv6 Address Allocations.mp451.14MB
  13. 10. Design High Availability in Campus Networks/89. Intro.mp44.1MB
  14. 10. Design High Availability in Campus Networks/90. Network Redundancy.mp449.94MB
  15. 10. Design High Availability in Campus Networks/91. Hot Standby Router Protocol (HSRP).mp463.86MB
  16. 10. Design High Availability in Campus Networks/92. Virtual Router Redundancy Protocol (VRRP).mp433.44MB
  17. 10. Design High Availability in Campus Networks/93. Gateway Load Balancing Protocol (GLBP).mp447.37MB
  18. 10. Design High Availability in Campus Networks/94. Bidirectional Forwarding Detection (BFD).mp440.93MB
  19. 10. Design High Availability in Campus Networks/95. FHRP Design.mp455.51MB
  20. 10. Design High Availability in Campus Networks/96. Graceful Restart, SSO, and NSF.mp436.76MB
  21. 10. Design High Availability in Campus Networks/97. Review and Quiz.mp418.64MB
  22. 11. Explain the Hierarchical Network Model/100. Enterprise Campus Architecture.mp439.5MB
  23. 11. Explain the Hierarchical Network Model/101. The Access Layer.mp428.33MB
  24. 11. Explain the Hierarchical Network Model/102. The Distribution Layer.mp436.23MB
  25. 11. Explain the Hierarchical Network Model/103. The Core Layer.mp427.73MB
  26. 11. Explain the Hierarchical Network Model/104. Collapsed Designs.mp431.34MB
  27. 11. Explain the Hierarchical Network Model/105. Review and Quiz.mp419.42MB
  28. 11. Explain the Hierarchical Network Model/98. Intro.mp45.83MB
  29. 11. Explain the Hierarchical Network Model/99. The Hierarchical Network Model.mp443.12MB
  30. 12. Design Campus L2 Infrastructures/106. Intro.mp47.12MB
  31. 12. Design Campus L2 Infrastructures/107. Media Types.mp445.68MB
  32. 12. Design Campus L2 Infrastructures/108. L2 and L3 Access Layer Design.mp436.72MB
  33. 12. Design Campus L2 Infrastructures/109. STP Modes and Features.mp442.18MB
  34. 12. Design Campus L2 Infrastructures/110. STP Designs.mp450.7MB
  35. 12. Design Campus L2 Infrastructures/111. Reducing STP Footprint.mp428.93MB
  36. 12. Design Campus L2 Infrastructures/112. Power over Ethernet (PoE) and Wake on LAN (WoL).mp434.86MB
  37. 12. Design Campus L2 Infrastructures/113. Review and Quiz.mp423.57MB
  38. 13. Design Multicampus L3 Infrastructures/114. Intro.mp46.23MB
  39. 13. Design Multicampus L3 Infrastructures/115. Routing Convergence, Summarization, and Filtering.mp449.6MB
  40. 13. Design Multicampus L3 Infrastructures/116. Route Load Sharing.mp434.63MB
  41. 13. Design Multicampus L3 Infrastructures/117. Route Redistribution.mp447.44MB
  42. 13. Design Multicampus L3 Infrastructures/118. Virtual Routing and Forwarding (VRFs).mp426.93MB
  43. 13. Design Multicampus L3 Infrastructures/119. Optimal Topologies.mp460.04MB
  44. 13. Design Multicampus L3 Infrastructures/120. Review and Quiz.mp421.41MB
  45. 14. Describe SD-Access Architecture/121. Intro.mp47.39MB
  46. 14. Describe SD-Access Architecture/122. SD-Access Overview.mp451.56MB
  47. 14. Describe SD-Access Architecture/123. SD-Access Architecture.mp442.95MB
  48. 14. Describe SD-Access Architecture/124. SD-Access Device Roles.mp438.74MB
  49. 14. Describe SD-Access Architecture/125. The SDA Control Plane - LISP.mp435.43MB
  50. 14. Describe SD-Access Architecture/126. The SDA Data Plane - VXLAN.mp432.98MB
  51. 14. Describe SD-Access Architecture/127. The SDA Policy Plane - CTS.mp434.88MB
  52. 14. Describe SD-Access Architecture/128. SD-Access Wireless.mp430.84MB
  53. 14. Describe SD-Access Architecture/129. SD-Access Automation.mp433.86MB
  54. 14. Describe SD-Access Architecture/130. Review and Quiz.mp417.73MB
  55. 15. Design an SD-Access Fabric/131. Intro.mp45.38MB
  56. 15. Design an SD-Access Fabric/132. Overlay and Network Segmentation Design.mp437.62MB
  57. 15. Design an SD-Access Fabric/133. Underlay Design.mp430.41MB
  58. 15. Design an SD-Access Fabric/134. Control Plane Design.mp420.28MB
  59. 15. Design an SD-Access Fabric/135. Border Design.mp433.34MB
  60. 15. Design an SD-Access Fabric/136. Hardware Selection.mp434MB
  61. 15. Design an SD-Access Fabric/137. Wireless Design.mp433.49MB
  62. 15. Design an SD-Access Fabric/138. Multicast in SD-Access.mp429.19MB
  63. 15. Design an SD-Access Fabric/139. Fabric in a Box.mp424.26MB
  64. 15. Design an SD-Access Fabric/140. Multisite Designs.mp429.29MB
  65. 15. Design an SD-Access Fabric/141. Review and Quiz.mp421.2MB
  66. 16. Compare WAN Connectivity Options/142. Intro.mp44.75MB
  67. 16. Compare WAN Connectivity Options/143. L2 and L3 VPN Services.mp438.6MB
  68. 16. Compare WAN Connectivity Options/144. Metro Ethernet and SONET_SDH.mp439.04MB
  69. 16. Compare WAN Connectivity Options/145. Dark and Lit Fiber.mp433.16MB
  70. 16. Compare WAN Connectivity Options/146. Cellular Connections.mp435.69MB
  71. 16. Compare WAN Connectivity Options/147. SD-WAN Customer Edge.mp432.63MB
  72. 16. Compare WAN Connectivity Options/148. Review and Quiz.mp416.7MB
  73. 17. Design Site-to-Site VPNs/149. Intro.mp43.21MB
  74. 17. Design Site-to-Site VPNs/150. DMVPN.mp446.11MB
  75. 17. Design Site-to-Site VPNs/151. L2 and L3 VPN Design.mp435.77MB
  76. 17. Design Site-to-Site VPNs/152. Generic Routing Encapsulation (GRE).mp433.77MB
  77. 17. Design Site-to-Site VPNs/153. IPsec.mp430MB
  78. 17. Design Site-to-Site VPNs/154. GET VPN.mp436.35MB
  79. 17. Design Site-to-Site VPNs/155. Review and Quiz.mp415.43MB
  80. 18. Design Enterprise WAN High Availability/156. Intro.mp47.06MB
  81. 18. Design Enterprise WAN High Availability/157. WAN Circuit Redundancy.mp447.26MB
  82. 18. Design Enterprise WAN High Availability/158. Routing Across Redundant WANs.mp442.47MB
  83. 18. Design Enterprise WAN High Availability/159. Internet Circuit Redundancy.mp444.97MB
  84. 18. Design Enterprise WAN High Availability/160. Measuring and Tracking SLA.mp460.84MB
  85. 18. Design Enterprise WAN High Availability/161. Review and Quiz.mp417.93MB
  86. 19. Describe Cisco SD-WAN Architecture and Principles/162. Intro.mp46.29MB
  87. 19. Describe Cisco SD-WAN Architecture and Principles/163. Cisco SD-WAN Architecture.mp443.75MB
  88. 19. Describe Cisco SD-WAN Architecture and Principles/164. The SD-WAN Data Plane.mp436.28MB
  89. 19. Describe Cisco SD-WAN Architecture and Principles/165. The SD-WAN Control Plane.mp416.21MB
  90. 19. Describe Cisco SD-WAN Architecture and Principles/166. The SD-WAN Management Plane.mp423.29MB
  91. 19. Describe Cisco SD-WAN Architecture and Principles/167. The Orchestration Plane.mp424.36MB
  92. 19. Describe Cisco SD-WAN Architecture and Principles/168. VPNs, Colors, and TLOCs.mp441.35MB
  93. 19. Describe Cisco SD-WAN Architecture and Principles/169. Features and Benefits.mp440.5MB
  94. 19. Describe Cisco SD-WAN Architecture and Principles/170. Review and Quiz.mp417.38MB
  95. 2. IS-IS Foundations and Design/13. Introducing IS-IS.mp418.74MB
  96. 2. IS-IS Foundations and Design/14. The Levels of an ISO Network.mp431.72MB
  97. 2. IS-IS Foundations and Design/15. Areas within an IS-IS Domain.mp421.36MB
  98. 2. IS-IS Foundations and Design/16. The Router's Level and Behavior.mp447.61MB
  99. 2. IS-IS Foundations and Design/17. Configuring the NET.mp424.36MB
  100. 2. IS-IS Foundations and Design/18. Configuring Level 1 IS-IS Neighbors.mp439.03MB
  101. 2. IS-IS Foundations and Design/19. Configuring Level 2 IS-IS Neighbors.mp418.25MB
  102. 2. IS-IS Foundations and Design/20. Configure Borders with Level 1_2 ISs.mp428.39MB
  103. 2. IS-IS Foundations and Design/21. Summarizing IS-IS Foundations.mp46.45MB
  104. 2. IS-IS Foundations and Design/22. Introducing IS-IS Campus Designs.mp49.75MB
  105. 2. IS-IS Foundations and Design/23. Securing IS-IS with Authentication.mp432.82MB
  106. 2. IS-IS Foundations and Design/24. The Flat IS-IS Network Design.mp428.7MB
  107. 2. IS-IS Foundations and Design/25. IS-IS in a 3-Tier Enterprise Campus.mp443.83MB
  108. 2. IS-IS Foundations and Design/26. The Hybrid IS-IS Design.mp426.43MB
  109. 2. IS-IS Foundations and Design/27. Summarizing IS-IS Designs.mp45.4MB
  110. 20. Design Cisco SD-WAN/171. Intro.mp45.95MB
  111. 20. Design Cisco SD-WAN/172. Control Plane Design.mp437.85MB
  112. 20. Design Cisco SD-WAN/173. Overlay Design.mp438.66MB
  113. 20. Design Cisco SD-WAN/174. LAN Design.mp427.96MB
  114. 20. Design Cisco SD-WAN/175. Redundancy and High Availability.mp430.66MB
  115. 20. Design Cisco SD-WAN/176. Securing the SD-WAN.mp429.22MB
  116. 20. Design Cisco SD-WAN/177. Multicast Traffic.mp434.79MB
  117. 20. Design Cisco SD-WAN/178. QoS in SD-WAN.mp438.28MB
  118. 20. Design Cisco SD-WAN/179. Review and Quiz.mp428.25MB
  119. 21. Select QoS Strategies/180. Intro.mp49.65MB
  120. 21. Select QoS Strategies/181. The Need for QoS.mp453.51MB
  121. 21. Select QoS Strategies/182. The IntServ Model.mp435.3MB
  122. 21. Select QoS Strategies/183. The DiffServ Model.mp450.55MB
  123. 21. Select QoS Strategies/184. Classification and Marking.mp464.84MB
  124. 21. Select QoS Strategies/185. Queuing and Scheduling.mp436.09MB
  125. 21. Select QoS Strategies/186. Review and Quiz.mp413.67MB
  126. 22. Design End-to-End QoS Policy/187. Intro.mp45.79MB
  127. 22. Design End-to-End QoS Policy/188. Congestion Management.mp451.63MB
  128. 22. Design End-to-End QoS Policy/189. Congestion Avoidance.mp449.3MB
  129. 22. Design End-to-End QoS Policy/190. Shaping and Policing.mp442.45MB
  130. 22. Design End-to-End QoS Policy/191. End-to-End QoS.mp433.77MB
  131. 22. Design End-to-End QoS Policy/192. QoS Design.mp450.58MB
  132. 22. Design End-to-End QoS Policy/193. Review and Quiz.mp418.28MB
  133. 23. Network Management and Telemetry Techniques/194. Designing for Network Management.mp47.91MB
  134. 23. Network Management and Telemetry Techniques/195. In-Band vs Out-of-Band.mp433.16MB
  135. 23. Network Management and Telemetry Techniques/196. SNMP.mp450.71MB
  136. 23. Network Management and Telemetry Techniques/197. YANG, Netconf, and Restconf.mp454.61MB
  137. 23. Network Management and Telemetry Techniques/198. Netflow.mp443.52MB
  138. 23. Network Management and Telemetry Techniques/199. Syslog.mp444.45MB
  139. 23. Network Management and Telemetry Techniques/200. Summarizing Network Management Design.mp45.9MB
  140. 23. Network Management and Telemetry Techniques/201. Introducing Telemetry Designs.mp415.63MB
  141. 23. Network Management and Telemetry Techniques/202. Streaming Telemetry and Model-Driven Telemetry.mp454.25MB
  142. 23. Network Management and Telemetry Techniques/203. The Subscription Cadence.mp445.34MB
  143. 23. Network Management and Telemetry Techniques/204. Dial-In vs Dial-Out Telemetry.mp431.73MB
  144. 23. Network Management and Telemetry Techniques/205. MDT Protocols.mp457.54MB
  145. 23. Network Management and Telemetry Techniques/206. Summarizing Model-Driven Telemetry.mp47.17MB
  146. 24. Multicast Routing Foundations and Design/207. Introducing Multicast Fundamentals.mp48.69MB
  147. 24. Multicast Routing Foundations and Design/208. The Point of Multicast.mp455.91MB
  148. 24. Multicast Routing Foundations and Design/209. IGMP and PIM.mp440.53MB
  149. 24. Multicast Routing Foundations and Design/210. Source Trees.mp439.45MB
  150. 24. Multicast Routing Foundations and Design/211. Shared Trees.mp429.22MB
  151. 24. Multicast Routing Foundations and Design/212. Rendezvous Points.mp438.96MB
  152. 24. Multicast Routing Foundations and Design/213. Reverse Path Forwarding.mp429.2MB
  153. 24. Multicast Routing Foundations and Design/214. Summarizing Multicast Fundamentals.mp44.1MB
  154. 24. Multicast Routing Foundations and Design/215. Introducing Multicast Routing Design.mp412.35MB
  155. 24. Multicast Routing Foundations and Design/216. Understanding IGMP.mp449.38MB
  156. 24. Multicast Routing Foundations and Design/217. PIM Dense-Mode (PIM-DM).mp444.86MB
  157. 24. Multicast Routing Foundations and Design/218. PIM Sparse-Mode (PIM-SM).mp463.4MB
  158. 24. Multicast Routing Foundations and Design/219. Bidir-PIM.mp425.69MB
  159. 24. Multicast Routing Foundations and Design/220. Source Specific Multicast (SSM).mp428.04MB
  160. 24. Multicast Routing Foundations and Design/221. MSDP.mp431.16MB
  161. 24. Multicast Routing Foundations and Design/222. Summarizing Multicast Design.mp411.39MB
  162. 25. Understand Model Driven Programmability/223. Introduction to Model Driven Programmability.mp414.49MB
  163. 25. Understand Model Driven Programmability/224. Transactional Configurations.mp424.94MB
  164. 25. Understand Model Driven Programmability/225. Node Types & Leaf Attributes.mp411.55MB
  165. 25. Understand Model Driven Programmability/226. Exploring YANG with Pyang.mp434.77MB
  166. 25. Understand Model Driven Programmability/227. Linux Tricks for YANG.mp430.04MB
  167. 25. Understand Model Driven Programmability/228. YANG Data Modelling with the CLI.mp424.55MB
  168. 26. Understand YANG-Based Network Automation/229. IETF YANG Models.mp434MB
  169. 26. Understand YANG-Based Network Automation/230. OpenConfig YANG Models.mp422.43MB
  170. 26. Understand YANG-Based Network Automation/231. Native YANG Models.mp423.59MB
  171. 26. Understand YANG-Based Network Automation/232. Pulling the Models.mp425.67MB
  172. 26. Understand YANG-Based Network Automation/233. Design Considerations.mp415.61MB
  173. 27. Understand the NETCONF and RESTCONF protocols/234. Introduction to NETCONF.mp419.07MB
  174. 27. Understand the NETCONF and RESTCONF protocols/235. NETCONF RPCs.mp426.76MB
  175. 27. Understand the NETCONF and RESTCONF protocols/236. Introduction to RESTCONF.mp410.18MB
  176. 27. Understand the NETCONF and RESTCONF protocols/237. RESTCONF Methods.mp47.5MB
  177. 27. Understand the NETCONF and RESTCONF protocols/238. Separating Config & State.mp423.21MB
  178. 27. Understand the NETCONF and RESTCONF protocols/239. Network-Wide Transactions.mp444.65MB
  179. 3. Design Networks with EIGRP/28. Designing EIGRP Networks.mp46.5MB
  180. 3. Design Networks with EIGRP/29. EIGRP Neighborships.mp492.05MB
  181. 3. Design Networks with EIGRP/30. EIGRP Metrics.mp472.79MB
  182. 3. Design Networks with EIGRP/31. The Feasibility Condition.mp442.36MB
  183. 3. Design Networks with EIGRP/32. Autonomous Systems.mp439.07MB
  184. 3. Design Networks with EIGRP/33. Stub Routers.mp440.98MB
  185. 3. Design Networks with EIGRP/34. Summarization Points.mp435.28MB
  186. 3. Design Networks with EIGRP/35. EIGRP Authentication.mp426.93MB
  187. 3. Design Networks with EIGRP/36. Summarizing EIGRP Design.mp416.91MB
  188. 4. Designing Networks with OSPF/37. Introducing OSPF.mp411.5MB
  189. 4. Designing Networks with OSPF/38. Neighbor Adjacency Formation.mp4105.52MB
  190. 4. Designing Networks with OSPF/39. Designated and Backup Designated Routers.mp462.23MB
  191. 4. Designing Networks with OSPF/40. The LSAs.mp455.98MB
  192. 4. Designing Networks with OSPF/41. OSPF Areas.mp467.53MB
  193. 4. Designing Networks with OSPF/42. Authentication.mp430.64MB
  194. 4. Designing Networks with OSPF/43. Summarizing OSPF.mp411.74MB
  195. 5. Break Through BGP Basics with Address Families/44. Beginning with BGP.mp410.62MB
  196. 5. Break Through BGP Basics with Address Families/45. The Point of BGP.mp422.25MB
  197. 5. Break Through BGP Basics with Address Families/46. Setting Up BGP.mp471.58MB
  198. 5. Break Through BGP Basics with Address Families/47. eBGP vs iBGP.mp441.41MB
  199. 5. Break Through BGP Basics with Address Families/48. Next-Hop Self.mp436.05MB
  200. 5. Break Through BGP Basics with Address Families/49. The BGP Process.mp424.48MB
  201. 5. Break Through BGP Basics with Address Families/50. Update-Source Interface.mp423.54MB
  202. 5. Break Through BGP Basics with Address Families/51. Address Families.mp437.38MB
  203. 5. Break Through BGP Basics with Address Families/52. Summarizing BGP Basics.mp47.6MB
  204. 6. Solve BGP Scalability Issues/53. Introducing BGP's Scale Issues.mp412.94MB
  205. 6. Solve BGP Scalability Issues/54. The Multi-Hop Scenario.mp441.79MB
  206. 6. Solve BGP Scalability Issues/55. Route Reflectors Rule 1.mp418.62MB
  207. 6. Solve BGP Scalability Issues/56. Examine Route Reflector Rule 1.mp437.85MB
  208. 6. Solve BGP Scalability Issues/57. Route Reflectors Rule 2.mp49.53MB
  209. 6. Solve BGP Scalability Issues/58. Examine Route Reflector Rule 2.mp418.72MB
  210. 6. Solve BGP Scalability Issues/59. Route Reflectors Rule 3.mp46.51MB
  211. 6. Solve BGP Scalability Issues/60. Examine Route Reflectors Rule 3.mp418.2MB
  212. 6. Solve BGP Scalability Issues/61. Exploring Confederations.mp425.42MB
  213. 6. Solve BGP Scalability Issues/62. Deploy and Trace a Confederation.mp455.22MB
  214. 6. Solve BGP Scalability Issues/63. Summarizing BGP Scaling Solutions.mp46.04MB
  215. 7. Understand the BGP Best Path Algorithm/64. Introducing BGP's Decision Making Process.mp415.19MB
  216. 7. Understand the BGP Best Path Algorithm/65. Weight.mp436.61MB
  217. 7. Understand the BGP Best Path Algorithm/66. Local Preference.mp430.73MB
  218. 7. Understand the BGP Best Path Algorithm/67. Originator and AIGP.mp421.19MB
  219. 7. Understand the BGP Best Path Algorithm/68. AS Path.mp423.9MB
  220. 7. Understand the BGP Best Path Algorithm/69. Origin Code and MED.mp423.15MB
  221. 7. Understand the BGP Best Path Algorithm/70. eBGP vs iBGP.mp412.24MB
  222. 7. Understand the BGP Best Path Algorithm/71. The Remaining Tiebreakers.mp425.5MB
  223. 7. Understand the BGP Best Path Algorithm/72. Summarizing the BGP Best Path Algorithm.mp48.9MB
  224. 8. Design Networks with BGP/73. Introducing BGP Design.mp419.64MB
  225. 8. Design Networks with BGP/74. Load Balancing Outbound Connections - Single ISP.mp439.4MB
  226. 8. Design Networks with BGP/75. Load Sharing Outbound Connections - Mulithomed ISPs.mp433.55MB
  227. 8. Design Networks with BGP/76. Manipulate Inbound Connections - Single ISP.mp432.59MB
  228. 8. Design Networks with BGP/77. Manipulate Inbound Connections - Multihomed ISPs.mp424.78MB
  229. 8. Design Networks with BGP/78. BGP Communities.mp447.59MB
  230. 8. Design Networks with BGP/79. Route Reflector Design.mp4127.06MB
  231. 8. Design Networks with BGP/80. Validating Your Design with Looking Glass.mp448.9MB
  232. 8. Design Networks with BGP/81. Summarizing BGP Design.mp44.75MB
  233. 9. Determine IPv6 Migration Strategies/82. Introducing IPv6 Transition Strategies.mp414.44MB
  234. 9. Determine IPv6 Migration Strategies/83. Dual Stack Environments.mp435.8MB
  235. 9. Determine IPv6 Migration Strategies/84. Tunneling IPv6 over IPv4.mp469.33MB
  236. 9. Determine IPv6 Migration Strategies/85. IPv6 Tunneling Concerns.mp449.88MB
  237. 9. Determine IPv6 Migration Strategies/86. Using LISP to Tunnel Traffic.mp446.87MB
  238. 9. Determine IPv6 Migration Strategies/87. Translating IPv6 into IPv4.mp438.27MB
  239. 9. Determine IPv6 Migration Strategies/88. Summarizing IPv6 Transition Technologies.mp451.07MB
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