服务热线: 025-86106162
二十年品牌  二十万学员的选择

CCIE无线考试大纲

日期: 2017-12-03
浏览次数: 2



CCIE Wireless (Unified Exam Topics)

Recommended for candidates scheduled to take the exam ON November 8, 2017 and beyond.

?

Exam Description

?

The Cisco CCIE? Wireless Version 3.1 exam unifies written and lab exam topics documents into a unique curriculum, while explicitly disclosing which domains pertain to which exam, and the relative weight of each domain.

?

The Cisco CCIE? Wireless Written Exam (400-351) is a two-hour test with 90?110 questions that assesses and validates wireless expertise at the highest level. Candidates who pass the CCIE Wireless written exam demonstrate broad theoretical knowledge of wireless networking at enterprise level, including a solid understanding of wireless local area networking (WLAN) technologies, and the ability to design, implement, and troubleshoot complex wireless solutions. The exam is closed book and no outside reference materials are allowed.

?

An Evolving Technologies section is included in the Written exam only. It will enable candidates to bridge their core technology expertise with knowledge of the evolving technologies that are being adopted at an accelerated pace, such as Cloud, Network Programmability, and IoT.

?

The Cisco CCIE? Wireless Lab Exam is an eight-hour, hands-on exam which requires candidates to configure, diagnose, and troubleshoot a series of complex network scenarios. The candidate will need to understand how the network and service components interoperate, and how the functional requirements translate into specific device configurations. Knowledge of troubleshooting is an important skill and candidates are expected to diagnose and solve issues as part of the CCIE lab exam. The candidate will not configure all end-user systems; however, the candidate will be responsible for all devices residing in the network.

?

The following topics are general guidelines for the content likely to be included on the exam. However, other related topics may also appear on any specific delivery of the exam. In order to better reflect the contents of the exam and for clarity purposes, the guidelines below may change at any time without notice.

?

Domain

Written Exam (%)

Lab Exam (%)


1.0 Plan and Design WLAN Technologies

16%

N/A


1.1 Describe WLAN organizations and regulations

1.2 Describe IEEE 802.11 standards and protocols

1.3 Plan & design wireless solutions requirements

  • 1.3.a Translate customer requirements into services and design recommendations

  • 1.3.b Identify ambiguity and/or information gaps

  • 1.3.c Evaluate interoperability of proposed technologies against deployed IP network infrastructure & technologies

  • 1.3.d Select an appropriate deployment model

  • 1.3.e Regulatory domains and country codes

1.4 RF planning, designing and validation

  • 1.4.a RF Design / Site survey

    • 1.4.a [i] Define the tasks/goals for a preliminary site survey

    • 1.4.a [ii] Conduct the site survey

    • 1.4.a [iii] Determine AP quantity, placement and antenna type

  • 1.4.b Architect indoor and outdoor RF deployments

    • 1.4.b [i] Coverage

    • 1.4.b [ii] Throughput

    • 1.4.b [iii]Voice

    • 1.4.b [iv]Location

    • 1.4.b [v] High Density / Very High Density

  • 1.4.c Construct an RF operational model that includes:

    • 1.4.c [i] Radio resource management (Auto-RF, manual, hybrid, Flexible Radio Assignment, TPC and DCA)

    • 1.4.c [ii] Channel use (radar, non-WiFi interference, Dynamic Bandwidth Selection)

    • 1.4.c [iii] Power level, overlap

    • 1.4.c [iv] RF profiles

  • 1.4.d Validate implemented RF deployment

2.0 Configure and Troubleshoot the Network Infrastructure

12%

15%


2.1 Configure and troubleshoot wired infrastructure to support WLANs

  • 2.1.a VLANs

  • 2.1.b VTP

  • 2.1.c STP

  • 2.1.d Etherchannel

2.2 Plan network infrastructure capacity

2.3 Configure and troubleshoot network connectivity for:

  • 2.3.a WLAN clients

  • 2.3.b WLCs (appliance, virtual, and Mobility Express)

  • 2.3.c Lightweight APs

  • 2.3.d Autonomous APs

2.4 Configure and troubleshoot PoE for APs

2.5 Configure and troubleshoot QoS on the switching infrastructure

  • 2.5.a MQC

  • 2.5.b MLS QoS

2.6 Configure and troubleshoot multicast on the switching infrastructure

  • 2.6.a PIM

  • 2.6.b Basic IGMP (including IGMP snooping)

  • 2.6.c MLD

2.7 Configure and troubleshoot IPv4 connectivity

  • 2.7.a Subnetting

  • 2.7.b Static and inter-VLAN routing

2.8 Configure and troubleshoot basic IPv6 connectivity

  • 2.8.a Subnetting

  • 2.8.b Static and inter-VLAN routing

2.9 Configure and troubleshoot wired security for APs

  • 2.9.a MAB

  • 2.9.b dot1X for APs

2.10 Configure and troubleshoot the following to support wireless services

  • 2.10.a DNS

  • 2.10.b DHCPv4 / DHCPv6

  • 2.10.c NTP, SNTP

  • 2.10.d SYSLOG

  • 2.10.e SNMP

  • 2.10.f CDP, LLDP

  • 2.10.g mDNS (including SDG)

3.0 Configure and Troubleshoot an Autonomous Deployment Model

8%

12%


3.1 Configure and troubleshoot different modes and roles

  • 3.1.a WGB

  • 3.1.b Point to point & Point to multi-point bridge

3.2 Configure and troubleshoot SSID/MBSSID

3.3 Configure and troubleshoot security

  • 3.3.a L2 security policies

  • 3.3.b Association filters

  • 3.3.c Local radius

  • 3.3.d dot1X profiles

3.4 Configure and troubleshoot radio settings

3.5 Configure and troubleshoot multicast

3.6 Configure and troubleshoot QoS

4.0 Configure and Troubleshoot AireOS appliance, virtual, and Mobility Express controllers

18%

27%


4.1 Configure and troubleshoot secure management access and control plane

  • 4.1.a AAA

  • 4.1.b CPU ACLs

  • 4.1.c Management via wireless interface

  • 4.1.d Management via dynamic interface

4.2 Configure and troubleshoot interfaces

4.3 Configure and troubleshoot lightweight APs

  • 4.3.a dot1x

  • 4.3.b AP modes

  • 4.3.c AP authentication / AP authorization

  • 4.3.d Logging

  • 4.3.e Local AP CLI configuration

  • 4.3.f WLC based AP configuration

4.4 Configure and troubleshoot high availability and redundancy

  • 4.4.a SSO

  • 4.4.b N+1, N+N

4.5 Configure and troubleshoot wireless segmentation

  • 4.5.a RF profiles

  • 4.5.b AP groups

  • 4.5.c FlexConnect

4.6 Configure and troubleshoot wireless security policies

  • 4.6.a WLANs

  • 4.6.b L2/L3 security

  • 4.6.c Rogue policies

  • 4.6.d Local EAP

  • 4.6.e Local profiling

  • 4.6.f ACLs

  • 4.6.g Certificates

4.7 Configure and troubleshoot FlexConnect and Office Extend

4.8 Configure and troubleshoot Mesh

4.9 Implement RF management

  • 4.9.a Static RF management

  • 4.9.b Automatic RF management

  • 4.9.c CleanAir

  • 4.9.d Data rates

  • 4.9.e RX-SOP

  • 4.9.f Air Time Fairness (ATF)

  • 4.9.g Flexible Radio Assignment (FRA)

4.10 Configure and troubleshoot mobility

  • 4.10.a L2/L3 roaming

  • 4.10.b Multicast optimization

  • 4.10.c Mobility group scaling

  • 4.10.d Inter-release controller mobility

  • 4.10.e Mobility anchoring

4.11 Configure and troubleshoot multicast

4.12 Configure and troubleshoot client roaming optimization

  • 4.12.a CCKM

  • 4.12.b Optimized Roaming

  • 4.12.c Band Select

  • 4.12.d Load Balancing

  • 4.12.e 802.11r/k/v

5.0 Configure and Troubleshoot Wireless Security & Identity Management with ISE

13%

17%


5.1 Configure and troubleshoot identity management

  • 5.1.a Basic PKI for dot1x and WebAuth

  • 5.1.b External identity sources (AD)

5.2 Configure and troubleshoot AAA policies

  • 5.2.a Client authentication and authorization

  • 5.2.b Management authentication and authorization

  • 5.2.c Client profiling and provisioning

  • 5.2.d RADIUS attributes

  • 5.2.e CoA

5.3 Configure and troubleshoot wireless guest management

  • 5.3.a Local web authentication

  • 5.3.b Central web authentication

  • 5.3.c Basic sponsor policy

6.0 Configure and Troubleshoot Prime Infrastructure and MSE/CMX

12%

15%


6.1 Configure and troubleshoot management access

  • 6.1.a AAA

  • 6.1.b Virtual domain

6.2 Perform basic operations

  • 6.2.a Create and deploy templates

  • 6.2.b Operate maps

  • 6.2.c Import infrastructure devices

  • 6.2.d High availability

  • 6.2.e Audits

  • 6.2.f Client troubleshooting

  • 6.2.g Notification receivers

  • 6.2.h Reports

  • 6.2.i Monitoring policies

6.3 Configure and troubleshoot Prime Infrastructure jobs

6.4 Operate Security management

  • 6.4.a Configure rogue management

  • 6.4.b Manage alarms and events

6.5 Implement and troubleshoot MSE/CMX

  • 6.5.a Management access

  • 6.5.b Network services

    • 6.5.b [i] Location

    • 6.5.b [ii] Analytics

    • 6.5.b [iii] Connect and Engage

    • 6.5.b [iv] CleanAir

    • 6.5.b [v] wIPS

  • 6.5.c NMSP

6.6 Integrate ISE with Prime Infrastructure and MSE/CMX

7.0 Configure and Troubleshoot WLAN media and application services

11%

14%


7.1 Configure and troubleshoot voice over wireless

  • 7.1.a QoS profiles

  • 7.1.b EDCA

  • 7.1.c WMM

  • 7.1.d BDRL

  • 7.1.e Admission control

  • 7.1.f MQC/MLS

7.2 Configure and troubleshoot video and media

  • 7.2.a Media Stream

  • 7.2.b Admission control

7.3 Configure and troubleshoot mDNS

  • 7.3.a mDNS proxy

  • 7.3.b Service discovery

  • 7.3.c Service filtering

7.4 Configure and troubleshoot AVC and netflow

7.5 Configure and troubleshoot FastLane and Adaptive Fast Transition (802.11r)

8.0 Evolving Technologies

10%

N/A


8.1 Cloud

  • 8.1.a Compare and contrast Cloud deployments models

    • 8.1.a [i] Infrastructure, platform, and software services (XaaS)

    • 8.1.a [ii] Performance and reliability

    • 8.1.a [iii] Security and privacy

    • 8.1.a [iv] Scalability and interoperability

  • 8.1.b Describe Cloud implementations and operations

    • 8.1.b [i] Automation and orchestration

    • 8.1.b [ii] Workload mobility

    • 8.1.b [iii] Troubleshooting and management

    • 8.1.b [iv] OpenStack components

8.2 Network programmability [SDN]

  • 8.2.a Describe functional elements of network programmability (SDN) and how they interact

    • 8.2.a [i] Controllers

    • 8.2.a [ii] APIs

    • 8.2.a [iii] Scripting

    • 8.2.a [iv] Agents

    • 8.2.a [v] Northbound vs. Southbound protocols

  • 8.2.b Describe aspects of virtualization and automation in network environments

    • 8.2.b [i] DevOps methodologies, tools and workflows

    • 8.2.b [ii] Network/application function virtualization (NFV, AFV)

    • 8.2.b [iii] Service function chaining

    • 8.2.b [iv] Performance, availability, and scaling considerations

8.3 Internet of Things

  • 8.3.a Describe architectural framework and deployment considerations formInternet of Things (IoT)

    • 8.3.a [i] Performance, reliability and scalability

    • 8.3.a [ii] Mobility

    • 8.3.a [iii] Security and privacy

    • 8.3.a [iv] Standards and compliance

    • 8.3.a [v] Migration

    • 8.3.a [vi] Environmental impacts on the network

CCIE Wireless Written Exam (400-351)

Recommended for candidates scheduled to take the exam BEFORE November 8, 2017.

?

Exam Description

?

The Cisco CCIE? Wireless Written Exam (400-351) is a two-hour test with 90?110 questions that assesses and validates wireless expertise at the highest level. Candidates who pass the CCIE Wireless written exam demonstrate broad theoretical knowledge of wireless networking at enterprise level, including a solid understanding of wireless local area networking (WLAN) technologies, and the ability to design, implement, and troubleshoot complex wireless solutions.

?

An Evolving Technologies section is included in the Written exam only. It will enable candidates to bridge their core technology expertise with knowledge of the evolving technologies that are being adopted at an accelerated pace, such as Cloud, Network Programmability and IoT.

?

The exam is closed book and no outside reference materials are allowed. The following topics are general guidelines for the content that is likely to be included on the lab exam. However, other related topics may also appear on any specific delivery of the exam. In order to better reflect the contents of the exam and for clarity purposes, the following guidelines may change at any time without notice.

?

Download Complete List of Topics in PDF format

?

1.0 Planning & Designing WLAN Technologies

11%


1.1 Describe WLAN organizations and regulations

1.2 Describe IEEE 802.11 standards and protocols

1.3 Plan & design wireless solutions requirements

  • 1.3.a Translate customer requirements into services and design recommendations

  • 1.3.b Identify ambiguity and/or information gaps

  • 1.3.c Evaluate interoperability of proposed technologies against deployed IP network infrastructure & technologies

  • 1.3.d Select an appropriate deployment model

  • 1.3.e Regulatory domains and country codes

1.4 RF planning, designing and validation

  • 1.4.a RF Design / Site survey

    • 1.4.a [i] Define the tasks/goals for a preliminary site survey

    • 1.4.a [ii] Conduct the site survey

    • 1.4.a [iii] Determine AP quantity, placement and antenna type

  • 1.4.b Architect indoor and outdoor RF deployments

    • 1.4.b [i] Coverage

    • 1.4.b [ii] Throughput

    • 1.4.b [iii] Voice

    • 1.4.b [iv] Location

    • 1.4.b [v] HD

    • 1.4.c Construct an RF operational model that includes:

    • 1.4.c [i] Radio resource management (Auto-RF, manual, hybrid, TPC and DCA)

    • 1.4.c [ii] Channel use (radar, non-WiFi interference)

    • 1.4.c [iii] Power level, overlap

    • 1.4.c [iv] RF profiles

  • 1.4.d Validate implemented RF deployment

2.0 Configure and Troubleshoot the Network Infrastructure

10%


2.1 Configure and troubleshoot wired infrastructure to support WLANs

  • 2.1.a VLANs

  • 2.1.b VTP

  • 2.1.c STP

  • 2.1.d Etherchannel

  • 2.1.e HSRP

  • 2.1.f VSS

  • 2.1.g Stacking

2.2 Plan network infrastructure capacity

2.3 Configure and troubleshoot network connectivity for:

  • 2.3.a WLAN clients

  • 2.3.b WLCs

  • 2.3.c Lightweight APs

  • 2.3.d Autonomous APs

2.4 Configure and troubleshoot PoE for APs

2.5 Configure and troubleshoot QoS on the switching infrastructure

  • 2.5.a MQC

  • 2.5.b Mls qos

2.6 Configure and troubleshoot multicast on the switching infrastructure

  • 2.6.a PIM-SM

  • 2.6.b Auto-RP

  • 2.6.c Static-RP

  • 2.6.d IGMP

  • 2.6.e IGMP snooping

  • 2.6.f MLD

2.7 Configure and troubleshoot IPv4 connectivity

  • 2.7.a Subnetting

  • 2.7.b Static routing

  • 2.7.c Basic OSPF

  • 2.7.d Basic EIGRP

2.8 Configure and troubleshoot basic IPv6 connectivity

  • 2.8.a Subnetting

  • 2.8.b Static routing

  • 2.8.c Basic OSPFv3

  • 2.8.d Basic EIGRP address families

2.9 Configure and troubleshoot wired security

  • 2.9.a ACLs (v4/v6)

  • 2.9.b dot1X

  • 2.9.c Port-security

  • 2.9.d SXP, SGT

2.10 Configure and troubleshoot network services

  • 2.10.a DNS

  • 2.10.b DHCPv4 / DHCPv6

  • 2.10.c NTP, SNTP

  • 2.10.d SYSLOG

  • 2.10.e SNMP

  • 2.10.f CDP, LLDP

  • 2.10.g SDG. mDNS

3.0 Configure and Troubleshoot an Autonomous Deployment Model

10%


3.1 Configuring and troubleshooting different modes and roles

  • 3.1.a Root

  • 3.1.b WGB

  • 3.1.c Bridge

3.2 Configuring and troubleshooting SSID/MBSSID

3.3 Configuring and troubleshooting security

  • 3.3.a L2 security policies

  • 3.3.b Association filters

  • 3.3.c PSPF

  • 3.3.d Local radius

  • 3.3.e dot1x profiles

  • 3.3.f Guest

3.4 Configuring and troubleshooting radio settings

3.5 Configuring and troubleshooting multicast

3.6 Configuring and troubleshooting QoS

4.0 Configure and Troubleshoot a Unified Deployment Model (Centralized)

18%


4.1 Configuring and controlling management access

4.2 Configuring and troubleshooting interfaces

4.3 Configuring and troubleshooting lightweight APs

  • 4.3.a dot1x

  • 4.3.b LSC

  • 4.3.c AP modes

  • 4.3.d AP authentication / authorization

  • 4.3.e Logging

  • 4.3.f Local / global configuration

4.4 Configuring and troubleshooting high availability and redundancy

  • 4.4.a Clients

  • 4.4.b APs

  • 4.4.c WLCs

4.5 Configuring and troubleshooting wireless segmentation

  • 4.5.a RF profiles

  • 4.5.b AP groups

  • 4.5.c Flexconnect

4.6 Configuring and troubleshooting wireless security policies

  • 4.6.a WLANs

  • 4.6.b L2/L3 security

  • 4.6.c Rogue policies

  • 4.6.d Local EAP

  • 4.6.e Local profiling

  • 4.6.f ACLs

  • 4.6.g Certificates

4.7 Configuring and troubleshooting Flexconnect and Office Extend

4.8 Configuring and troubleshooting Mesh

4.9 Implement RF management

  • 4.9.a Static RF management

  • 4.9.b Automatic RF management

  • 4.9.c CleanAir

  • 4.9.d Data rates

4.10 Configuring and troubleshooting WLC control plane security

  • 4.10.a AAA

  • 4.10.b CPU ACLs

  • 4.10.c Management via wireless interface

  • 4.10.d Management via dynamic interface

4.11 Configuring and troubleshooting mobility

  • 4.11.a L2/L3 roaming

  • 4.11.b Multicast optimization

  • 4.11.c Mobility group scaling

  • 4.11.d Inter-release controller mobility

  • 4.11.e New mobility

  • 4.11.f Mobility anchoring

4.12 Configuring and troubleshooting multicast

5.0 Configure and Troubleshoot a Unified Deployment Model (Converged)

11%


5.1 Configuring and controlling management access

5.2 Configuring and troubleshooting Interfaces

5.3 Configuring and troubleshooting lightweight APs

  • 5.3.a dot1x

  • 5.3.b AP authentication / authorization

  • 5.3.c Logging

  • 5.3.d Local / global configuration

5.4 Configuring and troubleshooting high availability and redundancy

  • 5.4.a Clients

  • 5.4.b APs

  • 5.4.c WLCs

5.5 Configuring and troubleshooting wireless segmentation

  • 5.5.a RF profiles

  • 5.5.b AP groups

5.6 Configuring and Troubleshooting wireless security policies

  • 5.6.a WLANs

  • 5.6.b L2/L3 security

  • 5.6.c Rogue policies

  • 5.6.d Local EAP

  • 5.6.e ACLs

  • 5.6.f Certificates

5.7 Implement RF management

  • 5.7.a Static RF management

  • 5.7.b Automatic RF management

  • 5.7.c CleanAir

  • 5.7.d Data rates

5.8 Configuring and troubleshooting WLC control plane security

  • 5.8.a AAA

  • 5.8.b Basic control plane policing

5.9 Configuring and troubleshooting mobility

  • 5.9.a L2/L3 roaming

  • 5.9.b Multicast optimization

  • 5.9.c Mobility group scaling

  • 5.9.d Inter-release controller mobility

  • 5.9.e Mobility anchoring

  • 5.9.f SPG

  • 5.9.g MC/MA

5.10 Configuring and troubleshooting multicast

6.0 Configure and Troubleshoot Security & Identity Management

10%


6.1 Configure and troubleshoot identity management

  • 6.1.a Basic PKI for dot1x and webauth

  • 6.1.b External identity sources (AD, LDAP)

6.2 Configure and troubleshoot AAA policies

  • 6.2.a Client authentication and authorization

  • 6.2.b Management authentication and authorization

  • 6.2.c Client profiling and provisioning

  • 6.2.d RADIUS attributes

  • 6.2.e CoA

6.3 Configure and troubleshoot guest management

  • 6.3.a Local web authentication

  • 6.3.b Central web authentication

  • 6.3.c Basic sponsor policy

7.0 Configure and Troubleshoot Prime Infrastructure and MSE

10%


7.1 Configure and troubleshoot management access

  • 7.1.a AAA

  • 7.1.b Virtual domain

7.2 Perform basic operations

  • 7.2.a Create and deploy templates

  • 7.2.b Operate maps

  • 7.2.c Import infrastructure devices

  • 7.2.d High availability

  • 7.2.e Audits

  • 7.2.f Client troubleshooting

  • 7.2.g Notification receivers

  • 7.2.h Reports

7.3 Perform maintenance operations

  • 7.3.a Background tasks

  • 7.3.b SW image management

7.4 Security management

  • 7.4.a Understand rogue management

  • 7.4.b Manage alarms and events

  • 7.4.c Understand security index

7.5 Implement and troubleshoot MSE

  • 7.5.a Management access

  • 7.5.b Network services

    • 7.5.b [i] Location

    • 7.5.b [ii] CMX

    • 7.5.b [iii] CleanAir

    • 7.5.b [iv] WIPS

  • 7.5.c NMSP

7.6 Integrate ISE

7.7 Integrate netflow

8.0 Configure and Troubleshoot WLAN media and application services

10%


8.1 Configure and troubleshoot voice over wireless

  • 8.1.a QoS profiles

  • 8.1.b EDCA

  • 8.1.c WMM

  • 8.1.d BDRL

  • 8.1.e Admission control

  • 8.1.f MQC

8.2 Configuring and troubleshooting video and media

  • 8.2.a Mediastream

  • 8.2.b Multicast-direct

  • 8.2.c Admission control

8.3 Configuring and troubleshooting mDNS

  • 8.3.a mDNS proxy

  • 8.3.b Service discovery

  • 8.3.c Service filtering

8.4 Configuring and troubleshooting AVC and netflow

9.0 Evolving Technologies

10%


9.1 Cloud

  • 9.1.a Compare and contrast Cloud deployment models

    • 9.1.a [i] Infrastructure, platform, and software services (XaaS)

    • 9.1.a [ii] Performance and reliability

    • 9.1.a [iii] Security and privacy

    • 9.1.a [iv] Scalability and interoperability

  • 9.1.b Describe Cloud implementations and operations

    • 9.1.b [i] Automation and orchestration

    • 9.1.b [ii] Workload mobility

    • 9.1.b [iii] Troubleshooting and management

    • 9.1.b [iv] OpenStack components

9.2 Network programmability [SDN]

  • 9.2.a Describe functional elements of network programmability (SDN) and how they interact

    • 9.2.a [i] Controllers

    • 9.2.a [ii] APIs

    • 9.2.a [iii] Scripting

    • 9.2.a [iv] Agents

    • 9.2.a [v] Northbound vs. Southbound protocols

  • 9.2.b Describe aspects of virtualization and automation in network environments

    • 9.2.b [i] DevOps methodologies, tools and workflows

    • 9.2.b [ii] Network/application function virtualization (NFV, AFV)

    • 9.2.b [iii] Service function chaining

    • 9.2.b [iv] Performance, availability, and scaling considerations

9.3 Internet of Things

  • 9.3.a Describe architectural framework and deployment considerations for Internet of Things (IoT)

    • 9.3.a [i] Performance, reliability and scalability

    • 9.3.a [ii] Mobility

    • 9.3.a [iii] Security and privacy

    • 9.3.a [iv] Standards and compliance

    • 9.3.a [v] Migration

    • 9.3.a [vi] Environmental impacts on the network








News / 相关新闻 More
2019 - 11 - 11
2017 - 11 - 17
思科职业认证CCIE课程目标路由和交换领域的CCIE认证资格表示网络人士在不同的LAN、WAN接口和各种路由器、交换机的联网方面拥有专家级知识。R&S 领域的专家可以解决复杂的连接问题,利用技术解决方案提高带宽、缩短响应时间、最大限度地提高性能、加强安全性和支持全球性应用。考生应当能够安装、配置和维护LAN、WAN和拨号接入服务。方向:网络管理及实施,网络性能优化、安全设计职位:网络工程师,系统集成工程师,网络维护工程师能力:设定主干路由协议利用多层交换技术建立园区网络环境安装配置CISCO设备并进行故障诊断和排错薪水:平均年薪不低于15万人民币,Cisco认证被恰当地称为'获得高技术,高薪水的头等舱船票①充足课时;充足的课时保证学员彻底学懂学会;②免费重修:学员缺课或者学习效果不理想,可以免费重修,确保完全掌握;③自由实验:实验室免费开放,时间不限,不断提高动手操作水平;④单独辅...
2017 - 11 - 17
CCNA课程目标    思科职业技能认证的初级认证思科认证网络支持工程师(CCNA)表示具备基本的和初步的网络知识。拥有CCNA认证的人士可以为小型网络(不超过100个节点)安装、配置和操作LAN、WAN和拨号接入服务,主要解决了网络的基本连通问题,具备初级网络工程师水平。通过CCNA课程的学习,您可以完成如下任务:1.在什么情况下应用集线器、交换机和路由器 2.利用Cisco IOS软件确认端口、协议、地址和可连接性3.根据要求互连交换机和路由器 4.配置交换机和路由器以支持LAN和WAN 服务5.设置IP子网以便于有效地管理网络6.通过配置访问列表来控制对网络段或网络资源的访问7.确认交换机、路由器及其配置的网络服务是按我们的预期在工作8.判断网络故障的原因并解决之9.对一些实际工程案例有一定的分析和解决能力学员要求计算机或相关通信专业,零基础或...
2017 - 11 - 16
思科职业认证CCIE课时安排
  • 微信扫一扫
  • 咨询电话:
  • 025-86106162
    18936898390


  • 一键加QQ群:
  • 思琦网络CCIE&HCIE群5
  • 销售咨询:蒋晗
  • QQ:2461907609 微信号:sqnjkf
    高级讲师:樊琦
    QQ:3052350132
    微信号:18936898390
    QQ:2461907609
  • 公司地址:
  • 江苏省南京市白下区洪武路38号正洪大厦19层 (南京总部)

    安徽省芜湖市鸠江区东部星城西区商务楼74-8室 (芜湖分部)

    重庆市高新区科园一路210号渝高广场D座10层 (重庆分部)

siqiwangluo.com  ?2017-11- 22 南京思琦网络科技有限公司 
犀牛云提供企业云服务
思琦在线咨询
av亚洲|