Cisco : CCIE Enterprise Infrastructure Tests Certification, Best Practice Tests for CCIE Enterprise Infrastructure certification Exam Certification 2021.
Exam Description: The Cisco CCIE Enterprise Infrastructure Practical Exam is an hands-on exam that requires a candidate to plan, design, deploy, operate, and optimize dual stack solutions (IPv4 and IPv6) for complex enterprise networks.
Candidates are expected to program and automate the network within their exam, as per exam topics below.
The following topics are general guidelines for the content likely to be included on the exam. Your knowledge, skills and abilities on these topics will be tested throughout the entire network lifecycle, unless explicitly specified otherwise within this document.
Network Infrastructure (30%)
1.1 Switched campus
1.1.a Switch administration
1.1.a i Managing MAC address table
1.1.a ii Errdisable recovery
1.1.a iii L2 MTU
1.1.b Layer 2 protocols
1.1.b i CDP, LLDP
1.1.b ii UDLD
1.1.c VLAN technologies
1.1.c i Access ports
1.1.c ii Trunk ports (802.1Q)
1.1.c iii Native VLAN
1.1.c iv Manual VLAN pruning
1.1.c v VLAN database
1.1.c vi Normal range and extended range VLANs
1.1.c vii Voice VLAN
1.1.c viii VTP
1.1.d EtherChannel
1.1.d i LACP, static
1.1.d ii Layer 2, Layer 3
1.1.d iii Load balancing
1.1.d iv EtherChannel Misconfiguration Guard
1.1.e Spanning Tree Protocol
1.1.e i PVST+, Rapid PVST+, MST
1.1.e ii Switch priority, port priority, path cost, STP timers
1.1.e iii PortFast, BPDU Guard, BPDU Filter
1.1.e iv Loop Guard, Root Guard
1.2 Routing Concepts
1.2.a Administrative distance
1.2.b VRF-lite
1.2.c Static routing
1.2.d Policy Based Routing
1.2.e VRF-aware routing with any routing protocol
1.2.f Route filtering with any routing protocol
1.2.g Manual summarization with any routing protocol
1.2.h Redistribution between any pair of routing protocols
1.2.i Routing protocol authentication
1.2.j Bidirectional Forwarding Detection
1.3 EIGRP
1.3.a Adjacencies
1.3.b Best path selection
1.3.b i RD, FD, FC, successor, feasible successor
1.3.b ii Classic Metrics and Wide Metrics
1.3.c Operations
1.3.c i General operations
1.3.c ii Topology table
1.3.c iii Packet types
1.3.c iv Stuck In Active
1.3.c v Graceful shutdown
1.3.d EIGRP load balancing
1.3.d i Equal-cost
1.3.d ii Unequal-cost
1.3.d iii Add-path
1.3.e EIGRP Named Mode
1.3.f Optimization, convergence and scalability
1.3.f i Fast convergence requirements
1.3.f ii Query propagation boundaries
1.3.f iii IP FRR (single hop)
1.3.f iv Leak-map with summary routes
1.3.f v EIGRP stub with leak map
1.6 Multicast
1.6.a Layer 2 multicast
1.6.a i IGMPv2, IGMPv3
1.6.a ii IGMP Snooping, PIM Snooping
1.6.a iii IGMP Querier
1.6.a iv IGMP Filter
1.6.a v MLD
1.6.b Reverse path forwarding check
1.6.c PIM
1.6.c i Sparse Mode
1.6.c ii Static RP, BSR, AutoRP
1.6.c iii Group to RP Mapping
1.6.c iv Bidirectional PIM
1.6.c v Source-Specific Multicast
1.6.c vi Multicast boundary, RP announcement filter
1.6.c vii PIMv6 Anycast RP
1.6.c viii IPv4 Anycast RP using MSDP
1.6.c ix Multicast multipath
2. Software Defined Infrastructure (25%)
2.1 Cisco SD Access
2.1.a Design a Cisco SD Access solution
2.1.a i Underlay network (IS-IS, manual/PnP)
2.1.a ii Overlay fabric design (LISP, VXLAN, Cisco TrustSec)
2.1.a iii Fabric domains (single-site and multi-site using SD-WAN transit)
2.1.b Cisco SD Access deployment
2.1.b i Cisco DNA Center device discovery and device management
2.1.b ii Add fabric node devices to an existing fabric
2.1.b iii Host onboarding (wired endpoints only)
2.1.b iv Fabric border handoff
2.1.c Segmentation
2.1.c i Macro-level segmentation using VNs
2.1.c ii Micro-level segmentation using SGTs (using Cisco ISE)
2.1.d Assurance
2.1.d i Network and client health (360)
2.1.d ii Monitoring and troubleshooting
2.2 Cisco SD-WAN
2.2.a Design a Cisco SD-WAN solution
2.2.a i Orchestration plane (vBond, NAT)
2019 Cisco Systems, Inc. This document is Cisco Public. Page 5
2.2.a ii Management plane (vManage)
2.2.a iii Control plane (vSmart, OMP)
2.2.a iv Data plane (vEdge/cEdge)
2.2.b WAN edge deployment
2.2.b i Onboarding new edge routers
2.2.b ii Orchestration with zero-touch provisioning/Plug-And-Play
2.2.b iii OMP
2.2.b iv TLOC
2.2.c Configuration templates
2.2.d Localized policies (only QoS)
2.2.e Centralized policies
2.2.e i Application Aware Routing
2.2.e ii Topologies
3. Transport Technologies and Solutions (15%)
3.1 MPLS
3.1.a Operations
3.1.a i Label stack, LSR, LSP
3.1.a ii LDP
3.1.a iii MPLS ping, MPLS traceroute
3.1.b L3VPN
3.1.b i PE-CE routing
3.1.b ii MP-BGP VPNv4/VPNv6
3.1.b iii Extranet (route leaking)
3.2 DMVPN
3.2.a Troubleshoot DMVPN Phase 3 with dual-hub
3.2.a i NHRP
3.2.a ii IPsec/IKEv2 using pre-shared key
3.2.a iii Per-Tunnel QoS
3.2.b Identify use cases for FlexVPN
3.2.b i Site-to-site, Server, Client, Spoke-to-Spoke
3.2.b ii IPsec/IKEv2 using pre-shared key
3.2.b iii MPLS over FlexVPN
4. Infrastructure Security and Services (15%)
4.1 Device Security on Cisco IOS XE
4.1.a Control plane policing and protection
4.1.b AAA
4.2 Network Security
4.2.a Switch security features
4.2.a i VACL, PACL
4.2.a ii Storm control
4.2.a iii DHCP Snooping, DHCP option 82
4.2.a iv IP Source Guard
4.2.a v Dynamic ARP Inspection
4.2.a vi Port Security
4.2.a vii Private VLAN
4.2.b Router security features
4.2.b i IPv6 Traffic Filters
4.2.b ii IPv4 Access Control Lists
4.2.b iii Unicast Reverse Path Forwarding
4.2.c IPv6 infrastructure security features
4.2.c i RA Guard
4.2.c ii DHCP Guard
4.2.c iii Binding table
4.2.c iv Device tracking
4.2.c v ND Inspection/Snooping
4.2.c vi Source Guard
4.2.d IEEE 802.1X Port-Based Authentication
4.2.d i Device roles, port states
4.2.d ii Authentication process
4.2.d iii Host modes
4.3 System Management
4.3.a Device management
4.3.a i Console and VTY
4.3.a ii SSH, SCP
4.3.a iii RESTCONF, NETCONF
4.3.b SNMP
4.3.b i v2c
4.3.b ii v3
4.3.c Logging
4.3.c i Local logging, syslog, debugs, conditional debugs
4.3.c ii Timestamps
4.4 Quality of Service
4.4.a End to end L3 QoS using MQC
4.4.a i DiffServ
4.4.a ii CoS and DSCP Mapping
4.4.a iii Classification
4.4.a iv Network Based Application Recognition (NBAR)
4.4.a v Marking using IP Precedence, DSCP, CoS
4.4.a vi Policing, shaping
4.4.a vii Congestion management and avoidance
4.4.a viii HQoS, Sub-rate Ethernet Link
4.5 Network Services
4.5.a First Hop Redundancy Protocols
4.5.a i HSRP, GLBP, VRRP
4.5.a ii Redundancy using IPv6 RS/RA
4.5.b Network Time Protocol
4.5.b i Master, client
4.5.b ii Authentication
4.5.c DHCP on Cisco IOS
4.5.c i Client, server, relay
4.5.c ii Options
4.5.c iii SLAAC/DHCPv6 interaction
4.5.c iv Stateful, stateless DHCPv6
4.5.c v DHCPv6 Prefix Delegation
4.5.d IPv4 Network Address Translation
4.5.d i Static NAT, PAT
4.5.d ii Dynamic NAT, PAT
4.5.d iii Policy-based NAT, PAT
4.5.d iv VRF-aware NAT, PAT
4.5.d v IOS-XE VRF-Aware Software Infrastructure (VASI) NAT
4.6 Network optimization
4.6.a IP SLA
4.6.a i ICMP probes
4.6.a ii UDP probes
4.6.a iii TCP probes
4.6.b Tracking object
4.6.c Flexible NetFlow
4.7 Network operations
4.7.a Traffic capture
4.7.a i SPAN
4.7.a ii RSPAN
4.7.a iii ERSPAN
4.7.a iv Embedded Packet Capture
4.7.b Cisco IOS-XE troubleshooting tools
4.7.b i Packet Trace
4.7.b ii Conditional debugger (debug platform condition)
2019 Cisco Systems, Inc. This document is Cisco Public. Page 8
5. Infrastructure Automation and Programmability (15%)
5.1 Data encoding formats
5.1.a JSON
5.1.b XML
5.2 Automation and scripting
5.2.a EEM applets
5.2.b Guest shell
5.2.b i Linux environment
5.2.b ii CLI Python module
5.2.b iii EEM Python module
5.3 Programmability
5.3.a Interaction with vManage API
5.3.a i Python requests library and Postman
5.3.a ii Monitoring endpoints
5.3.a iii Configuration endpoints
5.3.b Interaction with Cisco DNA Center API
5.3.b i HTTP request (GET, PUT, POST) via Python requests library and Postman
5.3.c Interaction with Cisco IOS XE API
5.3.c i Via NETCONF/YANG using Python ncclient library
5.3.c ii Via RESTCONF/YANG using Python requests library and Postman
5.3.d Deploy and verify model-driven telemetry
5.3.d i Configure on-change subscription using gRPC