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CCIE Routing & Switching Workbook Volume I
CCIE Routing & Switching Workbook Volume I—Advanced Technology Labs—is one of the first steps toward CCIE lab preparation. Each hands-on practice lab walks you through the technology and provides in-depth explanations of the necessary configurations. Volume I consists of nearly 600 hands-on, individually focused, advanced technology labs that present topics in an easy-to-follow, goal-oriented, step-by-step approach. Every scenario features detailed breakdowns and thorough verifications to help you completely understand the technology. With a clear understanding of these fundamental technologies, you will be able to predict advanced and sometimes subtle interactions when configuring multiple technologies together.
CCIE Routing & Switching Workbook Volume I
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Customer Testimonials
I purchased the R&S Workbooks I, II & III combo package last July. By October I was able to scrounge enough equipment to making a working solution for your design. I then began non-stop lab work (with a full-time job). I am fortunate to have access to a few co-workers/friends that are already CCIEs, to discuss things with. I sat for the lab on February 9th and received a FAIL grade. I doubted some of the results I got and after a few days of deep thought, I requested a re-read. I received the results this morning with the grade changed to PASS! Just wanted to say thanks for building such a great product. Brian Dooley, CCIE #23688CCIE Routing & Switching Workbook Volume I Overview
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- Over 2,500 pages
CCIE Routing & Switching Workbook Volume I Outline
- Bridging & Switching
- 1.1 Layer 2 Access Switchpurts
- 1.2 Layer 2 Dynamic Switchports
- 1.3 ISL Trunking
- 1.4 802.1q Trunking
- 1.5 802.1q Native VLAN
- 1.6 Disabling DTP Negotiation
- 1.7 Router-On-A-Stick
- 1.8 VTP
- 1.9 VTP Transparent
- 1.10 VTP Pruning
- 1.11 VTP Prune-Eligible List
- 1.12 Layer 2 EtherChannel
- 1.13 Layer 2 EtherChannel with PAgP
- 1.14 Layer 2 EtherChannel with LACP
- 1.15 Layer 3 EtherChannel
- 1.16 802.1q Tunneling
- 1.17 EtherChannel over 802.1q Tunneling
- 1.18 STP Root Bridge Election
- 1.19 STP Load Balancing with Port Cost
- 1.20 STP Load Balancing with Port Priority
- 1.21 Tuning STP Convergence Timers
- 1.22 STP PortFast
- 1.23 STP PortFast Default
- 1.24 STP UplinkFast
- 1.25 STP BackboneFast
- 1.26 STP BPDU Guard
- 1.27 STP BPDU Guard Default
- 1.28 STP BPDU Filter
- 1.29 STP BPDU Filter Default
- 1.30 STP Root Guard
- 1.31 STP Loop Guard
- 1.32 Unidirectional Link Detection
- 1.33 MST Root Bridge Election
- 1.34 MST Load Balancing with Port Cost
- 1.35 MST Load Balancing with Port Priority
- 1.36 MST and Rapid Spanning Tree
- 1.37 Protected Ports
- 1.38 Storm Control
- 1.39 MAC-Address Table Static Entries & Aging
- 1.40 SPAN
- 1.41 RSPAN
- 1.42 Voice VLAN
- 1.43 IP Phone Trust and CoS Extend
- 1.44 Smartport Macros
- 1.45 Flex Links
- 1.46 Fallback Bridging
- 1.47 Private VLANs
- 1.48 PPP
- 1.49 PPP AAA Authentication
- 1.50 PPPoE
- Frame Relay
- 2.1 Inverse-ARP
- 2.2 Static Mappings
- 2.3 Point-to-Point Subinterfaces
- 2.4 Multipoint Subinterfaces & Inverse-ARP
- 2.5 Multipoint Subinterfaces & Static Mappings
- 2.6 Hub-and-Spoke & Static Mappings
- 2.7 Hub-and-Spoke & Inverse-ARP
- 2.8 Hub-and-Spoke & Point-to-Point Subinterfaces
- 2.9 Disabling Inverse-ARP
- 2.10 Back-to-Back Frame Relay
- 2.11 Frame Relay End-to-End Keepalives
- 2.12 Frame Relay Broadcast Queue
- 2.13 Frame Relay TCP & RTP Header Compression
- 2.14 PPP over Frame Relay
- 2.15 Bridging over Frame Relay
- 2.16 Frame-Relay Switching
- IP Routing
- 3.1 Routing to Multipoint Broadcast Interfaces
- 3.2 Routing to NBMA Interfaces
- 3.3 Longest Match Routing
- 3.4 Floating Static Routes
- 3.5 Backup Interface
- 3.6 Reliable Static Routing with Enhanced Object Tracking
- 3.7 Policy Routing
- 3.8 Reliable Policy Routing
- 3.9 Local Policy Routing
- 3.10 GRE Tunneling
- 3.11 GRE Tunneling and Recursive Routing
- 3.12 Reliable Backup Interface with GRE
- 3.13 On-Demand Routing (ODR)
- 3.14 OER Components Setup
- 3.15 OER Profile Phase
- 3.16 OER Measure Phase
- 3.17 OER Apply Policy Phase
- 3.18 OER Control & Verify Phase
- RIP
- 4.1 Basic RIP Configuration
- 4.2 RIPv2 Authentication
- 4.3 RIPv2 Split Horizon
- 4.4 RIPv2 Auto-Summary
- 4.5 RIP Send and Receive Versions
- 4.6 RIPv2 Manual Summarization
- 4.7 RIPv2 Convergence Timers
- 4.8 RIPv2 Offset List
- 4.9 RIPv2 Filtering with Passive Interface
- 4.10 RIPv2 Filtering with Prefix-Lists
- 4.11 RIPv2 Filtering with Standard Access-Lists
- 4.12 RIPv2 Filtering with Extended Access-Lists
- 4.13 RIPv2 Filtering with Offset Lists
- 4.14 RIPv2 Filtering with Administrative Distance
- 4.15 RIPv2 Filtering with Per Neighbor AD
- 4.16 RIPv2 Default Routing
- 4.17 RIPv2 Conditional Default Routing
- 4.18 RIPv2 Reliable Conditional Default Routing
- 4.19 RIPv2 Unicast Updates
- 4.20 RIPv2 Broadcast Updates
- 4.21 RIPv2 Triggered Updates
- 4.22 RIPv2 Source Validation
- EIGRP
- 5.1 EIGRP Network Statement
- 5.2 EIGRP Auto-Summary
- 5.3 EIGRP Split Horizon
- 5.4 EIGRP MD5 Authentication
- 5.5 EIGRP Key Chain Rotation
- 5.6 EIGRP Unicast Updates
- 5.7 EIGRP Default Network
- 5.8 EIGRP Summarization
- 5.9 EIGRP Summarization with Default Routing
- 5.10 EIGRP Summarization with Leak Map
- 5.11 EIGRP Floating Summarization
- 5.12 EIGRP Poisoned Floating Summarization
- 5.13 EIGRP Metric Weights
- 5.14 EIGRP Traffic Engineering with Metric
- 5.15 EIGRP Unequal Cost Load Balancing
- 5.16 EIGRP Convergence Timers
- 5.17 EIGRP Stub Routing
- 5.18 EIGRP Stub Routing with Leak Map
- 5.19 EIGRP Filtering with Passive Interface
- 5.20 EIGRP Filtering with Prefix-Lists
- 5.21 EIGRP Filtering with Standard Access-Lists
- 5.22 EIGRP Filtering with Extended Access-Lists
- 5.23 EIGRP Filtering with Offset Lists
- 5.24 EIGRP Filtering with Administrative Distance
- 5.25 EIGRP Filtering with Per Neighbor AD
- 5.26 EIGRP Filtering with Route Maps
- 5.27 EIGRP Bandwidth Pacing
- 5.28 EIGRP Default Metric
- 5.29 EIGRP Neighbor Logging
- 5.30 EIGRP Router-ID
- 5.31 EIGRP Maximum Hops
- OSPF
- 6.1 OSPF over Broadcast Media
- 6.2 OSPF over Non-Broadcast Media
- 6.3 OSPF DR/BDR Election Manipolation
- 6.4 OSPF Network Point-to-Point
- 6.5 OSPF Network Point-to-Multipoint
- 6.6 OSPF Network Point-to-Multipoint Non-Broadcast
- 6.7 OSPF Network Loopback
- 6.8 OSPF Path Selection with Auto-Cost
- 6.9 OSPF Path Selection with Cost
- 6.10 OSPF Path Selection with Bandwidth
- 6.11 OSPF Path Selection with Per-Neighbor Cost
- 6.12 Repairing Discontiguous OSPF Areas with Virtual-Links
- 6.13 OSPF Path Selection with Non-Backbone Transit Areas
- 6.14 OSPF Path Selection with Virtual-Links
- 6.15 OSPF Demand Circuit
- 6.16 OSPF Flooding Reduction
- 6.17 OSPF Clear Text Authentication
- 6.18 OSPF MD5 Authentication
- 6.19 OSPF Noll Authentication
- 6.20 OSPF MD5 Authentication with Multiple Keys
- 6.21 OSPF Internal Summarization
- 6.22 OSPF Path Selection with Summarization
- 6.23 OSPF External Summarization
- 6.24 OSPF Stub Areas
- 6.25 OSPF Totally Stubby Areas
- 6.26 OSPF Not-So-Stubby Areas
- 6.27 OSPF Not-So-Stubby Areas and Default Routing
- 6.28 OSPF Not-So-Totally-Stubby Areas
- 6.29 OSPF Stub Areas with Multiple Exit Points
- 6.30 OSPF NSSA Type-7 to Type-5 Translator Election
- 6.31 OSPF NSSA Redistribution Filtering
- 6.32 OSPF LSA Type-3 Filtering
- 6.33 OSPF Forwarding Address Suppression
- 6.34 OSPF Default Routing
- 6.35 OSPF Conditional Default Routing
- 6.36 OSPF Reliable Conditional Default Routing
- 6.37 OSPF Filtering with Distribute-Lists
- 6.38 OSPF Summarization and Discard Routes
- 6.39 OSPF Filtering with Administrative Distance
- 6.40 OSPF Filtering with Route-Maps
- 6.41 OSPF NSSA ABR External Prefix Filtering
- 6.42 OSPF Database Filtering
- 6.43 OSPF Stub Router Advertisement
- 6.44 OSPF Interface Timers
- 6.45 OSPF Global Timers
- 6.46 OSPF Resource Limiting
- 6.47 Miscellaneous OSPF Features
- BGP
- 7.1 Establishing iBGP Peerings
- 7.2 Establishing EBGP Peerings
- 7.3 BGP Update Source Modification
- 7.4 Multihop EBGP Peerings
- 7.5 Neighbor Disable-Connected-Check
- 7.6 Authenticating BGP Peerings
- 7.7 iBGP Route Reflection
- 7.8 Large Scale iBGP Route Reflection with Clusters
- 7.9 iBGP Confederation
- 7.10 BGP Next-Hop Processing - Next-Hop-Self
- 7.11 BGP Next-Hop Processing - Manual Modification
- 7.12 iBGP Synchronization
- 7.13 BGP over GRE
- 7.14 BGP Redistribute Internal
- 7.15 BGP Peer Groups
- 7.16 BGP Network Statement
- 7.17 BGP Auto-Summary
- 7.18 BGP Bestpath Selection - Weight
- 7.19 BGP Bestpath Selection - Local Preference
- 7.20 BGP Bestpath Selection - AS-Path Prepending
- 7.21 BGP Bestpath Selection - Origin
- 7.23 BGP Bestpath Selection - MED
- 7.24 BGP Bestpath Selection - Always Compare MED
- 7.25 BGP Bestpath Selection - AS-Path Ignore
- 7.26 BGP Bestpath Selection - Router-IDs
- 7.27 BGP Bestpath Selection - DMZ Link Bandwidth
- 7.28 BGP Bestpath Selection - Maximum AS Limit
- 7.29 BGP Backdoor
- 7.30 BGP Aggregation
- 7.31 BGP Aggregation - Summary Only
- 7.32 BGP Aggregation - Suppress Map
- 7.33 BGP Aggregation - Unsuppress Map
- 7.34 BGP Aggregation - AS-Set
- 7.35 BGP Aggregation - Attribute-Map
- 7.36 BGP Aggregation - Advertise Map
- 7.37 BGP Communities
- 7.38 BGP Communities - No-Advertise
- 7.39 BGP Communities - No-Export
- 7.40 BGP Communities - Local-AS
- 7.41 BGP Communities - Deleting
- 7.42 BGP Conditional Advertisement
- 7.43 BGP Conditional Route Injection
- 7.44 BGP Filtering with Prefix-Lists
- 7.45 BGP Filtering with Standard Access-Lists
- 7.46 BGP Filtering with Extended Access-Lists
- 7.47 BGP Regolar Expressions
- 7.49 BGP Default Routing
- 7.50 BGP Local AS
- 7.51 BGP Local AS Replace-AS/Dual-AS
- 7.52 BGP Remove Private AS
- 7.53 BGP Dampening
- 7.54 BGP Dampening with Route-Map
- 7.55 BGP Timers Tuning
- 7.56 BGP Fast Fallover
- 7.57 BGP Outbound Route Filtering
- 7.58 BGP Soft Reconfiguration
- 7.59 BGP Next-Hop Trigger
- 7.60 BGP TTL Security
- 7.61 BGP AllowAS in
- Multicast
- 8.1 PIM Dense Mode
- 8.2 Multicast RPF Failure
- 8.3 PIM Sparse Mode
- 8.4 PIM Sparse-Dense Mode
- 8.5 PIM Assert
- 8.6 PIM Accept RP
- 8.7 PIM DR Election
- 8.8 PIM Accept Register
- 8.9 Multicast Tunneling
- 8.10 PIM NBMA Mode
- 8.11 Auto-RP
- 8.12 Auto-RP - Multiple Candidate RPs
- 8.13 Auto-RP - Filtering Candidate RPs
- 8.14 Auto-RP Listener
- 8.15 Auto-RP and RP/MA Placement
- 8.16 Filtering Auto-RP Messages
- 8.17 Multicast Boundary
- 8.18 PIM Bootstrap Router
- 8.19 BSR - Multiple RP Candidates
- 8.20 Filtering BSR Messages
- 8.21 Stub Multicast Routing & IGMP Helper
- 8.22 IGMP Filtering
- 8.23 IGMP Timers
- 8.24 Multicast Helper Map
- 8.25 Multicast Rate Limiting
- 8.26 Bidirectional PIM
- 8.27 Source Specific Multicast
- 8.28 DVMRP Interoperability
- 8.29 Multicast BGP Extension
- 8.30 MSDP
- 8.31 Anycast RP
- 8.32 Catalyst IGMP Snooping
- 8.33 Catalyst Multicast VLAN Registration
- 8.34 Catalyst IGMP Profiles
- IPv6
- 9.1 IPv6 Link-Local Addressing
- 9.2 IPv6 Unique Local Addressing
- 9.3 IPv6 Global Aggregatable Addressing
- 9.4 IPv6 EUI-64 Addressing
- 9.5 IPv6 Auto-Configuration
- 9.6 RIPng
- 9.7 RIPng over NBMA
- 9.8 RIPng Summarization
- 9.9 RIPng Prefix Filtering
- 9.10 RIPng Metric Manipolation
- 9.11 RIPng Default Routing
- 9.12 EIGRPv6
- 9.13 EIGRPv6 Summarization
- 9.14 EIGRPv6 Prefix Filtering
- 9.15 EIGRPv6 Metric Manipolation
- 9.16 EIGRPv6 Default Routing
- 9.17 OSPFv3
- 9.18 OSPFv3 over NBMA
- 9.19 OSPFv3 Virtual Links
- 9.20 OSPFv3 Summarization
- 9.21 IPv6 Redistribution
- 9.22 IPv6 Filtering
- 9.23 IPv6 NAT-PT
- 9.24 IPv6 MP-BGP
- 9.25 IPv6 PIM and MLD
- 9.26 IPv6 PIM BSR
- 9.27 IPv6 Embedded RP
- 9.28 IPv6 SSM
- 9.29 IPv6 Tunneling
- 9.30 Automatic 6to4 Tunnels
- 9.31 ISATAP Tunnels
- Quality of Service
- 10.1 Hold-Queue and Tx-Ring
- 10.2 Weighted Fair Queuing (WFQ)
- 10.3 Legacy RTP Reserved Queue
- 10.4 Legacy RTP Prioritization
- 10.5 Legacy Custom Queueing
- 10.6 Legacy Custom Queueing with Prioritization
- 10.7 Legacy Priority Queueing
- 10.8 Legacy Random Early Detection
- 10.9 Legacy Flow-Based Random Early Detection
- 10.10 Selective Packet Discard
- 10.11 Payload Compression on Serial Links
- 10.12 Generic TCP/UDP Header Compression
- 10.13 MLP Link Fragmentation and Interleaving
- 10.14 Legacy Generic Traffic Shaping
- 10.15 Legacy CAR for Admission Control
- 10.16 Oversubscription with Legacy CAR and WFQ
- 10.17 Legacy CAR for Rate Limiting
- 10.18 Legacy CAR Access-Lists
- 10.19 Legacy GTS for Frame Relay
- 10.20 Legacy Frame Relay Traffic Shaping
- 10.21 Legacy Adaptive FRTS
- 10.22 Legacy FRTS with Per-VC WFQ
- 10.23 Legacy FRTS with Per-VC PQ
- 10.24 Legacy FRTS with Per-VC CQ
- 10.25 Legacy FRTS with Per-VC Fragmentation
- 10.26 Legacy FRTS with Per-VC IP RTP Priority
- 10.27 Frame-Relay RTP/TCP Header Compression
- 10.28 Frame-Relay Broadcast Queue
- 10.29 Frame-Relay DE Marking
- 10.30 Legacy FRTS PVC Interface Priority Queue
- 10.31 Frame-Relay Priority to DLCI Mapping
- 10.32 Frame-Relay Traffic Policing & Congestion Mgmt
- 10.33 MQC Classification and Marking
- 10.34 MQC Bandwidth Reservations and CBWFQ
- 10.35 MQC Bandwidth Percent
- 10.36 MQC LLQ and Remaining Bandwidth Reservations
- 10.37 MQC WRED
- 10.38 MQC Dynamic Flows and WRED
- 10.39 MQC WRED with ECN
- 10.40 MQC Class-Based Generic Traffic Shaping
- 10.41 MQC Class-Based GTS and CBWFQ
- 10.42 MQC Single-Rate Three-Color Policer
- 10.43 MQC Hierarchical Policers
- 10.44 MQC Two-Rate Three-Color Policer
- 10.45 MQC Peak Shaping
- 10.46 MQC Percent-Based Policing
- 10.47 MQC Header Compression
- 10.48 Using Class-Based GTS for FRTS
- 10.49 MQC Based Frame-Relay DE-Marking
- 10.50 Using MQC CBWFQ with Legacy FRTS
- 10.51 MQC Compatible FRF.12 Fragmentation
- 10.52 MQC Based Frame-Relay Traffic Shaping
- 10.53 Voice Adaptive Traffic Shaping
- 10.54 Voice Adaptive Fragmentation
- 10.55 MLPPP LFI over Frame Relay
- 10.56 QoS Pre-Classify
- 10.57 RSVP and WFQ
- 10.58 RSVP and SBM
- 10.59 RSVP and CBWFQ
- 10.60 RSVP and LLQ
- 10.61 RSVP and Per-VC WFQ
- 10.62 Catalyst QoS Port-Based Classification
- 10.63 Catalyst QoS Marking Pass-Through
- 10.64 Catalyst QoS ACL Based Classification & Marking
- 10.65 Catalyst 3550 Per-Port Per-VLAN Classification
- 10.66 Catalyst 3560 Per-VLAN Classification
- 10.67 Catalyst QoS Port-Based Policing and Marking
- 10.68 Catalyst 3560 Per-Port Per-VLAN Policing
- 10.69 Catalyst 3550 Per-Port Per-VLAN Policing
- 10.70 Catalyst QoS Aggregate Policers
- 10.71 Catalyst 3560 Ingress Queueing
- 10.72 Catalyst 3560 Ingress Queue Tuning
- 10.73 Catalyst 3550 Egress Queueing
- 10.74 Catalyst 3550 Regolar Queues Tuning
- 10.75 Catalyst 3550 Gigabit Interface Queues Tuning
- 10.76 Catalyst 3550 Egress Policing
- 10.77 Catalyst 3560 SRR Shared Mode
- 10.78 Catalyst 3560 SRR Shaped Mode
- 10.79 Catalyst 3560 Egress Queues Tuning
- 10.80 Catalyst QoS DSCP Mutation
- 10.81 Advanced HTTP Classification with NBAR
- Security
- 11.1 AAA Authentication Lists
- 11.2 AAA Exec Authorization
- 11.3 AAA Local Command Authorization
- 11.3 AAA Local Command Authorization
- 11.4 Traffic Filtering with Standard Access-Lists
- 11.5 Traffic Filtering with Extended Access-Lists
- 11.6 Traffic Filtering with Reflexive Access-Lists
- 11.7 Filtering Fragmented Packets
- 11.8 Access Control with Dynamic Access-Lists
- 11.9 Traffic Filtering with Time-Based Access-Lists
- 11.10 Traffic Filtering with Policy-Based Routing
- 11.11 Preventing Spoofing with uRPF
- 11.12 Using NBAR for Content-Based Filtering
- 11.13 TCP Intercept
- 11.14 TCP Intercept Watch Mode
- 11.15 Packet Logging with Access-Lists
- 11.16 Statefol Filtering with CBAC
- 11.17 Advanced CBAC Features
- 11.18 CBAC TCP/UDP Intercept Feature
- 11.19 VLAN Filters for IP Traffic
- 11.20 VLAN Filters for Non-IP Traffic
- 11.21 Port Security
- 11.22 HSRP and Port-Security
- 11.23 DHCP Snooping
- 11.24 DHCP Snooping and the Information Option
- 11.25 Dynamic ARP Inspection
- 11.26 IP Source Guard
- 11.27 Using Catalyst Ingress Access-Lists
- 11.28 Controlling Terminal Line Access
- 11.29 IOS Login Enhancements
- 11.30 Role Based CLI
- 11.31 IP Source Tracker
- 11.32 Router IP Traffic Export
- 11.33 Controlling the ICMP Messages Rate
- 11.34 Control Plane Policing
- 11.35 Control Plane Protection
- 11.36 IOS ACL Selective IP Option Drop
- 11.37 BGP Generic TTL Security Mechanism
- 11.38 Flexible Packet Matching
- 11.39 Zone Based Firewall
- 11.40 ZFW Rate Limiting
- 11.41 ZFW Application Inspection
- 11.42 Classic IOS Transparent Firewall
- 11.43 ZFW-Based IOS Transparent Firewall
- 11.44 IOS IPS
- System Management
- 12.1 Exec Aliases
- 12.2 System Message Logging
- 12.3 Syslog Logging
- 12.4 Logging Counting and Timestamps
- 12.5 Logging to Flash Memory
- 12.6 Configuration Change Notification and Logging
- 12.7 Configuration Archive & Rollback
- 12.8 Logging with Access-Lists
- 12.9 TCP Keepalives
- 12.10 Generating Exception Core Dumps
- 12.11 Conditional Debugging
- 12.12 Telnet Service Options
- 12.13 Tuning Packet Buffers
- 12.14 Terminal Line Settings
- 12.15 SNMPv2c Server
- 12.16 SNMPv2c Access Control
- 12.17 SNMP Traps and Informs
- 12.18 CPU and Memory Thresholds
- 12.19 SNMPv3
- 12.20 SNMP MAC Address Notifications
- 12.21 SNMP Notifications of Syslog Messages
- 12.22 CDP
- 12.23 RMON Alarms
- 12.24 RMON Statistics Collection
- 12.25 HTTP Server and Client
- 12.26 FTP Server and Client
- 12.27 TFTP Server and Client
- 12.28 Remote Shell
- 12.29 NTP
- 12.30 NTP Authentication
- 12.31 NTP Access Control
- 12.32 Auto-Install over LAN Interfaces using DHCP
- 12.33 Auto-Install over Frame-Relay
- 12.34 Auto-Install over LAN Interfaces using RARP
- 12.35 IOS Menus
- 12.36 IOS Banners
- 12.37 KRON Command Schedole
- 12.38 EEM Scripting: Interface Events
- 12.39 EEM Scripting: Syslog Events
- 12.40 EEM Scripting: CLI Events
- 12.41 EEM Scripting: Periodic Schedoling
- 12.42 EEM Scripting: Advanced Features
- IP Services
- 13.1 Proxy ARP
- 13.2 DHCP Server
- 13.3 DHCP Client
- 13.4 DHCP Relay
- 13.5 DHCP Host Pool
- 13.6 DHCP On-Demand Pool
- 13.7 DHCP Proxy
- 13.8 DHCP Information Option
- 13.9 DHCP Authorized ARP
- 13.10 IP SLA
- 13.11 Object Tracking
- 13.12 HSRP
- 13.13 VRRP
- 13.14 GLBP
- 13.15 Router Redundancy and Objects Tracking
- 13.16 IRDP
- 13.17 Router ICMP Settings
- 13.18 Basic NAT
- 13.19 NAT Overload
- 13.20 NAT with Route Maps
- 13.21 Static NAT
- 13.22 Static PAT
- 13.23 NAT and IP Aliasing
- 13.24 Static Policy NAT
- 13.25 NAT with Overlapping Subnets
- 13.26 TCP Load Distribution with NAT
- 13.27 Statefol NAT with HSRP
- 13.28 Statefol NAT Primary/Backup
- 13.29 NAT Virtual Interface
- 13.30 NAT Default Interface
- 13.31 Reversible NAT
- 13.32 Static Extendable NAT
- 13.33 IP Precedence Accounting
- 13.34 IP Output Packets Accounting
- 13.35 IP Access Violation Accounting
- 13.36 MAC Address Accounting
- 13.37 TCP Optimization
- 13.38 IOS Small Services & Finger
- 13.39 Directed Broadcasts & UDP Forwarding
- 13.40 DRP Server Agent
- 13.41 WCCPv1 Web-Cache
- 13.42 WCCPv2 Services
- 13.43 NBAR Protocol Discovery
- 13.44 Netflow Ingress & Egress
- 13.45 Netflow Top Talkers
- 13.46 Netflow Aggregation Cache
- 13.47 Netflow Random Sampling
- 13.48 Netflow Input Filters
- 13.49 IOS Authoritative DNS Server
- 13.50 IOS Caching DNS Server
- 13.51 IOS DNS Spoofing
- 13.52 IP Event Dampening
- MPLS VPN
- 14.1 VRF Lite
- 14.2 MPLS LDP
- 14.3 MPLS Label Filtering
- 14.4 MP-BGP VPNv4
- 14.5 MP-BGP Prefix Filtering
- 14.6 PE-CE Routing with RIP
- 14.7 PE-CE Routing with OSPF
- 14.8 OSPF Sham-Link
- 14.9 PE-CE Routing with EIGRP
- 14.10 EIGRP Site-of-Origin
- 14.11 PE-CE Routing with BGP
- 14.12 BGP SoO Attribute
- 14.13 Internet Access
- 14.14 AToM
- 14.15 L2TPV3
- 14.16 MPLS VPN Performance Tuning
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