CCIE Wireless Infrastructure v1.0 Real Lab Training
CCIE Enterprise v1.1 Lab Bootcamp
CCIE Wireless Infrastructure v1.0 Real Lab Training

The Cisco CCIE Enterprise Wireless v1.0 Practical Exam is an eight-hour, hands-on exam that requires a candidate to plan, design, implement, operate, and optimize complex Enterprise Wireless networks.

$1499

Description

CCIE Wireless Infrastructure v1.0 Real Lab Bootcamp

Welcome to our website, This site offers you the opportunity to learn more about New CCIE Wireless v1.0 and get your self prepared for Cisco exam. We are the reputed and trusted institute for CCIE Wireless v1.0 Real Lab Bootcamp and Training, Online and Offline (Classroom Training). The Cisco Certified Internetwork Expert (CCIE) certification is accepted worldwide as the most prestigious networking certification in the industry. Network Engineers holding an active Cisco CCIE certification are recognized for their expert network engineering skills and mastery of Cisco products and solutions. Iproute has established a reputation of leading the networking industry in deep technical networking knowledge and are deployed into the most technically challenging network assignments. Join us to Pass CCIE Wireless v1.0 Exam in One Shot and get your self recognized worldwide.

Pass New CCIE Wireless Infrastructure v1.0 Real Lab Exam

One of the most difficult requirement needed to achieve CCIE certification is to pass a grueling hands on lab examination administered by Cisco. The specific format of the CCIE Wireless v1.0 Real Lab is currently not the same across all tracks, but in general the entire time of the lab exam is 8 hours. The CCIE lab requires a candidate to configure and troubleshoot a series of complex networks to given specifications in this limited amount of time. Point values are given for each task. The CCIE lab exam is graded by trained proctors who ensure the entire criterion are met and points are awarded accordingly. The CCIE lab has traditionally only been available to take at a handful of Cisco lab locations worldwide, recently, there have been efforts made by Cisco to expand the availability of the lab in some tracks by introducing both a mobile lab which moves periodically to different cities around the world. We Ip route hold the ranking worldwide in making preparation of New CCIE Wireless v1.0 Real Lab Exam with guaranteed passing in one shot. 

Course Summary
CCIE Wireless v1.0 - Topics

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.

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  • 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)
    • 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
    • 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
    • 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
    • 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 (both classic deployment and Wide Area Bonjour)
      • 5.5.c Service filtering
    • 6.1 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