سرفصلهای دوره CCNP Enterprise
در دوره CCNP Enterprise آموزشگاه ایفل 363 مورد تدریس میشود. در این مطلب میتوانید این سرفصلها را دانلود و بررسی کنید.
گذراندن دوره CCNP Enterprise برای مهندسان شبکهای که هدف یادگیری پیشرفته سیسکو را دارند، بسیار ضروری است.
سرفصل های دوره CCNP Enterprise
دانلود سرفصل های دوره CCNP Enterprise
نمونه تدریس دوره CCNP Enterprise
1.Overview and Planning Tasks for The CCNP Exams
2.CCNP Exam Codes
3.Password Recovery on Cisco Routers
4.EIGRP Overview and Neighbor Relationship
5.Steps to add Routes to the IP Routing Table
6.Exchanging Topology Information
7.Calculating the Best Routes for the Routing Table
8.EIGRP Metric
9.Default EIGRP Interface Bandwidth and Delay
10.How We Can Change Default Metric
11.Tuning Interface Bandwidth and Delay
12.EIGRP Feature Summary
13.Manipulating EIGRP Hello and Hold Timers
14.Preventing Unwanted Neighbors Using Passive Interfaces
15.Controlling Neighborships Using EIGRP Authentication
16.Key Chain Time-Based Logic
17.Controlling Neighborships with Static Configuration
18.Configuring Static EIGRP Neighbors
19.Neighbor Requirements for EIGRP and OSPF
20.Configuring EIGRP Metric Components (K-values)
21.The Content of EIGRP Update Message
22.WAN Issues for EIGRP Topology Exchange
23.Split Horizon Default on Frame Relay Multipoint Sub-interfaces
24.EIGRP WAN Bandwidth Control
25.Offset List Configuration
26.Optimizing EIGRP Convergence
27.Verification of Feasible Successors
28.Converging by Going Active
29.The Impact of Stub Routers on Query Scope
30.Parameters on the EIGRP Stub Command
31.EIGRP Variance (Load Balancing Between Unequal Metrics)
32.EIGRP Route Summarization and Filtering
33.Filtering by Referencing ACLs
34.Filtering by Referencing IP Prefix Lists
35.IP Prefix List Concepts
36.Filtering by Using Route Maps
37.Route Summarization
38.Suboptimal Forwarding with Summarization
39.Suboptimal Discarding with Summarization
40.Manual Summarization
41.Advertising Static Default Routes with EIGRP network Command
42.Advertising Static Default Routes with EIGRP redistribute Command
43.OSPF Overview and Neighbor Relationship
44.OSPF Link State Concepts
45.OSPF Feature Summary
46.OSPF Neighbors and Adjacencies on LANs
47.Enabling OSPF Neighbor Discovery on LANs
48.Settings That Must Match for OSPF Neighborship
49.Background on Designated Routers
50.Optimizing Convergence Using Hello and Dead Timers
51.Using a Unique OSPF Router-ID
52.Using the Same IP MTU
53.OSPF Authentication
54.OSPF Neighbors and Adjacencies on WANs
55.OSPF Network Types
56.OSPF Topology
57.Route and Convergence
58.LSAs and the OSPF Link State Database
59.LSA Type 1: Router LSA
60.LSA Type 2: Network LSA
61.LSA Type 3: Summary LSA
62.OSPF Messages
63.OSPF Neighbor State Reference
64.Exchange with a Designated Router
65.Periodic Flooding
66.Calculating the Cost of Intra-Area Routes
67.Calculating the Cost of InterArea Routes
68.Route Filtering
69.Type 3 LSA Filtering
70.Filtering OSPF Routes Added to the Routing Table
71.Distribute-list Command
72.Configuration of Manual Summarization at ABRs
73.Default Routes and Stub Areas
74.Domain-wide Defaults Using the default-information originate Command
75.Features of default-information originate Command
76.Introducing Stubby Area Types
77.Configuration of Manual Summarization at ASBRs
78.Comparing Manual Summarization at ABR & ASBRs
79.Configuring and Verifying Stubby Areas
a.Stub Area
b.Totally Stubby Area
c.Not-So-Stubby Areas (NSSA)
d.Totally NSSA
80.Understanding OSPF Virtual Link Concepts
81.Configuring OSPF Virtual Links with No Authentication
82.Verifying the OSPF Virtual Link
83.Configuring Virtual Link Authentication
84.Basic IGP Redistribution
85.Route Redistribution Basics
86.The Need for Route Redistribution
87.EIGRP redistribute Command Reference (Redistribution into EIGRP)
88.Baseline Configuration for EIGRP Redistribution Examples
89.Configuring EIGRP Redistribution with Default Metric Components
90.Verifying EIGRP Redistribution
91.Redistribution into OSPF
92.OSPF redistribute Command Reference (Redistribution into OSPF)
93.Configuring OSPF Redistribution with Minimal Parameters
94.Setting OSPF Metrics on Redistributed Routes
95.LSAs and Metrics for External Type 2 Routes
96.Determining the Next-Hop for Type 2 External Routes–Intra-area
97.Determining the Next-Hop for Type 2 External Routes–Interarea
98.LSAs and Metrics for External Type 2 Routes
99.Determining the Next-Hop for Type 2 External Routes–Interarea
100.Redistributing into OSPF as E1 Routes
101.A Brief Comparison of E1 and E2 Routes
102.External Routes in NSSA Areas
103.Advanced IGP Redistribution
104.Redistribution with Route Maps and Distribute Lists
105.Overview of Using route-maps with Redistribution
106.Filtering Redistributed Routes with Route Maps
107.Configuring Route Filtering with Redistribution
108.Verifying Redistribution Filtering Operations
109.Setting Metrics when Redistributing
110.Setting the External Route Type
111.Redistribution Filtering with the distribute-list Command
112.Issues with Multiple Redistribution Points
113.Preventing Routing Domain Loops with Administrative Distance
114.EIGRP Default AD Defeats Loop from EIGRP to OSPF to EIGRP
115.EIGRP Default AD Defeats Loop from OSPF to EIGRP to OSPF
116.Setting AD per Route Source for Internal and External Routes
117.Domain Loop Problems with More than Two Routing Domains
118.Using Per-route Administrative Distance Settings
119.Preventing Domain Loops by Filtering on Subnet While Redistributing
120.Preventing Domain Loops by Filtering on route-tag Using Distribute Lists
121.Policy-Based Routing
122.Matching the Packet and Setting the Route
123.PBR Configuration Example
124.Internet Connectivity and BGP
125.The Basics of Internet Routing and Addressing
126.Public IP Address Assignment
127.The Impact of NAT/PAT
128.Introduction to BGP
129.BGP ASNs and the AS_SEQ Path Attribute
130.Internal and External BGP
131.Public and Private ASNs
132.Outbound Routing Toward the Internet
133.Comparing BGP and Default Routing for Enterprises
134.Choosing One Path over Another Using BGP
135.Comparing BGP and Default Routing for Enterprises
a.Single homed (1 link per ISP, 1 ISP)
b.Dual homed (2 links per ISP, 1 ISP)
c.Single multihomed (1 link per ISP, 2 ISPs)
d.Dual multihomed (2 links per ISP, 2 ISPs)
136.External BGP for Enterprises
137.eBGP Neighbor Configuration
138.Requirements for Forming eBGP Neighborships
139.Issues When Redundancy Exists Between eBGP Neighbors
140.eBGP Multihop Concepts
141.Configuring for eBGP Redundancy and Authentication
142.BGP Message Summary
143.BGP Internals and Verifying eBGP Neighbors
144.Administratively Controlling Neighbor Status
145.The BGP Update Message
146.Configure BGP Networks (Basic)
147.Configure BGP Networks (Full)
148.Examining the BGP Table
149.Viewing Subsets of the BGP Table
150.Displaying the Results of BGP Filtering
151.Injecting Routes into BGP for Advertisement to the ISPs
152.Injecting Routes Using Redistribution
153.Internal BGP Between Internet-Connected Routers
154.Configuring iBGP
155.Understanding Next-Hop Reachability Issues with iBGP
156.Ensuring Routes Exist to the Next-Hop Address
157.Route Filtering and Clearing BGP Peers
158.BGP Filtering Overview
159.BGP Filtering Tools
160.Inbound and Outbound BGP Filtering on Prefix/Length
161.Clearing BGP Neighbors
162.Displaying the Results of BGP Filtering
163.BGP Path Control
164.BGP Path Attributes and Best Path Algorithm
165.Overview of the BGP Best Path Algorithm
166.Sample Internetwork BGP Tie Break
167.Memorization Tip for BGP Best Path
168.Influencing BGP Weight
169.Setting the BGP Administrative Weight Using a Route Map
170.Setting Weight Using the neighbor weight Command
171.Setting the Local Preference
172.Sample Internetwork Used in the Local_Pref and AS_Path Length Examples
173.Setting the BGP Local_Pref Using a Route Map
174.IP Routes Based on BGP Best Paths
175.BGP RIB Failure
176.BGP and the maximum-paths Command
177.Increasing the Length of the AS_Path Using AS_Path Prepend
178.MED Concepts
179.IPV6 Addressing
180.Global Route Aggregation for Efficient Routing
181.Conventions for Representing IPv6 Addresses
182.Prefix Terminology
183.Subnetting Global Unicast IPv6 Addresses Inside an Enterprise
184.Learning the Prefix/Length and Default Router with NDP Router Advertisements
185.Calculating the Interface ID Using EUI-64
186.Link Local Unicast Addresses (Functions)
187.Multicast and Other Special IPv6 Addresses
188.Layer 2 Addressing Mapping and Duplicate Address Detection
189.Neighbor Discovery Protocol for Layer 2 Mapping
190.Configuring IPv6 Addresses on Cisco Routers
191.IPV6 Routing ProtocolsRIP Next Generation (RIPng)
192.EIGRP for IPv6 EIGRP for IPv4 and IPv6–Theory and Comparisons
193.Configuring EIGRP for IPv6
194.OSPF Version 3 Comparing OSPFv2 and OSPFv3
195.IPv6 IGP Redistribution Differences
196.Redistributing without Route Maps
197.Redistributing with Route Maps
198.Static IPv6 Routes
199.IPV4 and IPV6 Coexistence
200.IPv4 and IPv6 Migration and Coexistence Concepts
201.IPv4/IPv6 Dual Stacks
202.Tunneling
203.Point-to-Point IPv6 Tunnels
204.Point-to-Multipoint IPv6 Tunnels
205.Summary of IPv6 Tunneling Methods
206.Static Point-to-Point IPv6 Tunnels
207.Manually Configured Tunnels Configuring and Verifying a MCT
208.GRE Tunnels
209.Point-to-Point IPv6 Tunnel Summary
210.Dynamic Multipoint IPv6 Tunnels
211.Automatic 6to4 Tunnels
212.Using the Automatic 6to4 Prefix for All Devices (2002::/16)
213.Using Global Unicasts with Automatic Tunnels
214.IPv6 ISATAP Tunnels
215.Comparing ISATAP and Automatic 6to4 Concepts
216.Configuring ISATAP IPv6 Tunnels
217.Branch Office Broadband Internet Access
218.VPN Configuration
219.Site to Site VPN Configuration
220.The Planning Tasks of The CCNP Exams
221.Perspectives on CCNP Exam Topics Related to Planning
222.Layer 2 Switch Operation
223.Transparent Bridging
224.Multilayer Switch Operation
225.Types of Multilayer Switching
226.Content-Addressable Memory
227.Ternary Content-Addressable Memory
228.Monitoring Switching Tables
229.Ethernet Concepts
230.Ethernet Port Cables and Connectors
231.Selecting Ports to Configure
232.Managing Error Conditions on a Switch Port
233.Detecting Error Conditions
234.Automatically Recover from Error Conditions
235.Troubleshooting Port Connectivity (Looking for the Port State)
236.Virtual LANs
237.VLAN Membership
238.Configuring Static VLANs
239.Deploying VLANs
240.End-to-End VLANs
241.VLAN Frame Identification
242.Inter-Switch Link Protocol
243.IEEE 802.1Q Protocol
244.Dynamic Trunking Protocol
245.VLAN Trunk Configuration
246.Troubleshooting VLANs and Trunks
247.Summary advertisements
248.Subset advertisements
249.Advertisement requests from clients
250.Configuring a VTP Management Domain and VTP Mode
251.Configuring the VTP Version
252.VTP Pruning
253.Switch Port Aggregation with EtherChannel
254.Bundling Ports with EtherChannel
255.Distributing Traffic in EtherChannel
256.Configuring EtherChannel Load Balancing
257.Port Aggregation Protocol
258.Link Aggregation Control Protocol
259.EtherChannel Configuration
260.Troubleshooting an EtherChannel
261.IEEE 802.1D Overview
262.Preventing Loops with Spanning Tree Protocol
263.Spanning-Tree Communication: Bridge Protocol Data Units
264.Electing a Root Bridge
265.Electing Root Ports
266.Electing Designated Ports
267.STP Port States
268.STP Timers
269.Topology Changes
270.Common Spanning Tree
271.Per-VLAN Spanning Tree
272.Per-VLAN Spanning Tree Plus
273.Root Bridge Placement
274.Root Bridge Configuration
275.Tuning the Root Path Cost
276.Tuning the Port ID
277.Modifying STP Timers
278.Manually Configuring STP Timers
279.Automatically Configuring STP Timers
280.Redundant Link Convergence
281.PortFast: Access-Layer Nodes
282.UplinkFast: Access-Layer Uplinks
283.BackboneFast: Redundant Backbone Paths
284.Monitoring STP
285.Protecting Against Unexpected BPDUs
286.Root Guard
287.BPDU Guard
288.Rapid Spanning Tree Protocol
289.RSTP Port Behavior
290.STP and RSTP States Comparison
291.Rapid Per-VLAN Spanning Tree Protocol
292.Multilayer Switching
293.InterVLAN Routing
294.Configuring InterVLAN Routing
295.Layer 3 Port Configuration
296.SVI Port Configuration
297.Multilayer Switching with CEF
298.Traditional MLS Overview
299.Forwarding Information Base
300.Configuring an IOS DHCP Server
301.Configuring a DHCP Relay
302.Enterprise Campus Network Design
303.Hierarchical Network Design
304.Predictable Network Model
305.Access Layer
306.Distribution Layer
307.Core Layer
308.Modular Network Design
309.Switch Block
310.Switch Block Redundancy
311.Core Block
312.Collapsed Core
313.Dual Core
314.Layer 3 High Availability
315.Router Redundancy in Multilayer Switching
316.Hot Standby Router Protocol
317.HSRP Router Election
318.HSRP Authentication
319.Plain-Text HSRP Authentication
320.MD5 Authentication HSRP Authentication
321.Conceding the Election
322.HSRP Gateway Addressing
323.Load Balancing with HSRP
324.Virtual Router Redundancy Protocol
325.Gateway Load Balancing Protocol
326.Active Virtual Gateway
327.Enabling GLBP
328.Verifying Gateway Redundancy
329.IP Telephony
330.Power over Ethernet
331.Detecting a Powered Device
332.Configuring PoE
333.Verifying PoE
334.Voice VLANs
335.Voice VLAN Configuration
336.Verifying Voice VLAN Operation
337.Voice QoS
338.Best-Effort Delivery
339.Integrated Services Model
340.Differentiated Services Model
341.Using Auto-QoS to Simplify a Configuration
342.Integrating Wireless LANs
343.Comparing Wireless and Wired LANs
344.WLAN Building Blocks
345.Access Point Operation
346.Wireless LAN Cells
347.WLAN Architecture: Traditional WLAN Architecture
348.Securing Switch Access
349.Port Security
350.Port-Based Authentication
351.802.1x Configuration
352.Mitigating Spoofing Attacks
353.DHCP Snooping
354.IP Source Guard
355.Best Practices for Securing Switches
356.RADIUS Server Configuration
357.Securing With VLANs
358.VLAN Access Lists
359.Private VLANs
360.Configure the Private VLANs
361.Associate Ports with Private VLANs
362.Securing VLAN Trunks
363.Password Recovery on Cisco Switches