CCIE Enterprise Wireless Lab Bootcamp

Course Name: CCIE Enterprise Wireless Lab Bootcamp

Duration 6 Days.

Course Index:

Module 1: Radio Frequency and Standards

1.1 IEEE 802.11 standards and protocols

1.2 RF Design / Site survey

  • 1.2.a Define the tasks/goals for a preliminary site survey
  • 1.2.b Conduct the site survey
  • 1.2.c Determine AP quantity, placement and antenna type

1.3 Indoor and outdoor RF deployments

  • 1.3.a Coverage
  • 1.3.b Throughput
  • 1.3.c Voice
  • 1.3.d Location
  • 1.3.e High Density / Very High Density

1.4 RF operational models

  • 1.4.a Radio resource management (Auto-RF, manual, hybrid,

Flexible Radio  Assignment, TPC and DCA, CHD)

  • 1.4.b Channel use (Co-channel, radar, non-WiFi interference,

Dynamic  Bandwidth Selection)

  • 1.4.c Power level, overlap
  • 1.4.d RF profiles
  • 1.4.e Data rates
  • 1.4.f RX-SOP
  • 1.4.g CleanAir and EDRRM
  • 1.4.h Air Time Fairness (ATF)

Module 2:Enterprise Wired Campus

2.1 Layer 2 technologies to support wireless deployments

  • 2.1.a VLANs
  • 2.1.b STP
  • 2.1.c Etherchannel
  • 2.1.d CDP, LLDP

2.2 Data/Control plane technologies to support a SD-Access wireless

deployment

  • 2.2.a VXLAN and LISP
  • 2.2.b VRFs

2.3 AP powering options

2.4 IPv4 and IPv6 connectivity

  • 2.4.a Subnetting
  • 2.4.b Static and inter-VLAN routing

2.5 Multicast on the switching infrastructure

  • 2.5.a PIM
  • 2.5.b Basic IGMP (including IGMP snooping)
  • 2.5.c MLD

2.6 QoS on the switching infrastructure

  • 2.6.a MQC
  • 2.6.b MLS QoS

2.7 Services to support a wireless deployment

  • 2.7.a DNS
  • 2.7.b DHCPv4 / DHCPv6
  • 2.7.c NTP, SNTP
  • 2.7.d SYSLOG
  • 2.7.e SNMP

Module 3: Enterprise Wireless Network

3.1 WLC interfaces and ports

3.2 Lightweight APs

  • 3.2.a AP modes
  • 3.2.b AP Logging
  • 3.2.c AP CLI troubleshooting
  • 3.2.d AP level configuration settings
  • 3.2.e WLC discovery and AP join process
  • 3.2.f AP join profile

3.3 High availability, redundancy, and resilience

  • 3.3.a SSO
  • 3.3.b N+1, N+N
  • 3.3.c Patching and rolling upgrades for IOS-XE
  • 3.3.d ISSU

3.4 Wireless segmentation with profiles and groups

  • 3.4.a RF profiles
  • 3.4.b AP groups
  • 3.4.c Flex groups
  • 3.4.d Site tag
  • 3.4.e RF tag
  • 3.4.f Policy tag

3.5 FlexConnect and Office Extend

3.6 All controller deployment models

3.7 Mesh

3.8 WGB on IOS and on COS APs

3.9 Controller Mobility

  • 3.9.a L2/L3 roaming
  • 3.9.b Multicast optimization
  • 3.9.c Mobility group scaling
  • 3.9.d Inter-OS controller mobility
  • 3.9.e Mobility anchoring
  • 3.9.f Mobility encryption

Module 4: Wireless Security and Identity Management

4.1 Secure management access and control plane

  • 4.1.a Device administration with TACACS+/RADIUS
  • 4.1.b CPU ACLs
  • 4.1.c Management via wireless and dynamic interface
  • 4.1.d Password policies
  • 4.1.e AP authorization

4.2 Identity management

  • 4.2.a Basic PKI for dot1X and WebAuth
  • 4.2.b Internal and external identity sources
  • 4.2.c Identity PSK

4.3 Wireless security and Network access policies

  • 4.3.a Client authentication and authorization
  • 4.3.b Client profiling and provisioning
  • 4.3.c RADIUS attributes
  • 4.3.d CoA
  • 4.3.e ACLs
  • 4.3.f L2/L3 security
  • 4.3.g Certificates
  • 4.3.h Local policies

4.4 Guest management

  • 4.4.a Local web authentication
  • 4.4.b Central web authentication
  • 4.4.c Basic sponsor policy

4.5 Access Point switchport authentication

  • 4.5.a MAB
  • 4.5.b 802.1X
  • 4.5.c NEAT
  • 4.5.d Switchport macros

4.6 TrustSec for SD-Access Wireless

  • 4.6.a SGTs
  • 4.6.b SGACLs

4.7 Intrusion detection and prevention features

  • 4.7.a Rogue policies
  • 4.7.b MFP
  • 4.7.c Standards and custom signatures
  • 4.7.d Client exclusion policies
  • 4.7.e Switchport tracing

Module 5: Wireless business applications and services

5.1 QoS policies

  • 5.1.a QoS profiles
  • 5.1.b EDCA
  • 5.1.c WMM
  • 5.1.d Bi-Directional Rate Limitting
  • 5.1.e Admission control
  • 5.1.f QoS maps
  • 5.1.g FastLane

5.2 AVC and netflow

5.3 Client roaming optimization

  • 5.3.a Band Select
  • 5.3.b Load Balancing
  • 5.3.c 802.11r and Adaptive Fast Transition
  • 5.3.d 802.11k/v

5.4 Wireless Multicast

  • 5.4.a Multicast modes in the controllers
  • 5.4.b Multicast snooping
  • 5.4.c Multicast direct
  • 5.4.d Mulitcast VLAN

5.5 mDNS

  • 5.5.a mDNS proxy
  • 5.5.b Service discovery
  • 5.5.c Service filtering

Module 6: Automation, Analytics, and Assurance

Prime Infrastructure

  • 6.1.a Basic operations

◦ 6.1.a i Create and deploy templates

◦ 6.1.a ii Operate maps

◦ 6.1.a iii Import infrastructure devices

◦ 6.1.a iv Audits

◦ 6.1.a v Client troubleshooting

◦ 6.1.a vi Notification receivers

◦ 6.1.a vii Reports

◦ 6.1.a viii Monitoring policies

◦ 6.1.a ix Prime Infrastructure jobs

  • 6.1.b WLAN Security management

◦ 6.1.b i Configure rogue management

◦ 6.1.b ii Manage alarms and events

6.2 Cisco CMX/DNA Spaces

  • 6.2.a Management access
  • 6.2.b Network services

◦ 6.2.b i Analytics & Metrics

◦ 6.2.b ii Location

◦ 6.2.b iii Profiles

◦ 6.2.b iv Engage

  • 6.2.c Operational Insights
  • 6.2.d API calls using python scripts

6.3 Cisco DNA Center

  • 6.3.a Wireless Automation

◦ 6.3.a i Day 0 – Provisioning

◦ 6.3.a ii SWIM

◦ 6.3.a iii Application policies

◦ 6.3.a iv Security policies

◦ 6.3.a v Operate Maps

  • 6.3.b Assurance

◦ 6.3.b i Network health and WLC/AP 360

◦ 6.3.b ii Client health and client 360

◦ 6.3.b iii Application experience

◦ 6.3.b iv Sensors

◦ 6.3.b v iPCAP and on demand captures

◦ 6.3.b vi Network telemetry

  • 6.3.c SD Access

◦ 6.3.c i Fabric enabled wireless

◦ 6.3.c ii SDA policy and segmentation

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