| CCIE认证介绍 |
CCIE全称Cisco Certified Internetwork
Expert,是美国Cisco公司于1993年开始推出的专家级认证考试。被公认为IT业最权威的认证,是全球Internetworking领域中的顶级CCIE认证证书。这个认证主要提供工程师在今日快速变动的网络环境中驾奴Cisco设备所需的专业知识。成为CCIE除了整个产业的认同之外,CCIE也是你不断持有最新网络知识的指标;你将会在你的专业领域中成为一位最具竞争力的人。
CCIE目前在考的共分为5类:
Routing & Switching(R&S)
Service Provider(SP)
Security
Voice
Storage Networking
所以现在全球能报考的只有这5类CCIE认证。
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| CCIE认证互联网专家 |
Cisco
Certified Internetwork Expert 被视为是全球Internetworking领域中的顶级CCIE认证证书。这个认证主要提供工程师在今日快速变动的网络环境中驾奴Cisco设备所需的专业知识。成为CCIE除了整个产业的认同之外,CCIE也是你不断持有最新网络知识的指标;你将会在你的专业领域中成为一位最具竞争力的人。
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| 如何成为CCIE? |
要取得CCIE认证证书,需要取得以下课程考试:
1、CCIE资格考试(即笔试,三小时)
2、CCIE实验考试(一天) |
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CCIE笔试
(路由交换CCIE考试号 350-001) |
| 课程介绍 |
VOIP Voice over IP:讲解VoIP(在数据网上传送语音的技术)的相关知识与配置方法;
CCIE Written: 讲解CCIE笔试相关的考试知识与注意事项;
具备在CCIE Lab中解决VoIP问题的能力及通过CCIE笔试;
ATM基础和底层协议;
通过ATM进行网络互联及所提供的业务;
Voice over IP,CCIE Written.
* Catalyst 3550多层交换机简介;
* Catalyst 3550多层交换机的2层功能;
* Catalyst 3550多层交换机的3、4层功能;
* Catalyst 3550多层交换机的特性;
* Catalyst 3550多层交换机在Lab中的必备知识. |
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CCIE
Pre-Lab |
| 课程介绍 |
针对CCIE Lab考试的相关内容、注意事项及备考方案;
CCIE认证应试者;
熟悉CCIE Lab考试的相关知识、技能;
CCIE Routing & Switching认证;
第一天:Bridging and Switching;IP IGP Protocols,ISDN。;
第二天:IOS Features,IP Features,Quality
of Service,Multicast。;
第三天:Security,Multiservice,IP EGP Protocols。.
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| Securing
Cisco IOS Networks (SECUR,以前名称是MCNS) |
* 网络威胁;
* 基本路由器安全;
* 高级AAA安全功能,确保路由器网络安全;
* 缓解Cisco路由器安全威胁;
* Cisco IOS防火墙CBAC功能;
* Cisco IOS防火墙认证代理;
* Cisco IOS防火墙入侵检测;
* 用路由器实现IPSec VPN;
* 使用CA实现高级IPSec VPN;
* 使用Cisco Easy VPN配置IOS远程访问;
* 管理企业VPN路由器.
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| Cisco
Secure Virtual Private Network (CSVPN)课程介绍 |
* VPN和IPsec技术概述;
* Cisco VPN 3000 Concentrator 概述;
* 配置Cisco VPN 3000通过使用Pre-shared Kays
进行远程访问;
* 配置Cisco VPN 3000通过使用Digital Certificates
进行远程访问;
* 监控和管理配置Cisco VPN 3000 远程访问网络;
* 配置Cisco IDS IPsec for Pre-shared
Key Site-to-Site;
* 配置Cisco IDS IPsec Certificate Authority
支持Site-to-site;
* 配置Cisco Pix Firewall for IPsec Pre-shared
Keys Site-to-site;
* 配置Cisco Pix Firewall Certificate
Authan’ty 支持Site-to-site;
* 扩展Cisco路由器和Pix Firewall VPN;
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| Cisco
Secure PIX Firewall Advanced (CSPFA)课程介绍 |
* CISCO
Secure PIX 防火墙配置;
* 在Secure PIX 防火墙上实现AAA配置;
* 访问控制配置和内容过滤;
* 在Secure PIX 防火墙上实现高级协议及防卫攻击;
* Secure PIX 防火墙上的Failover;
* Secure PIX 防火墙上配置基于上下文的访问控制;
* 在CISCO IOS中配置验证代理;
* 利用 Secure PIX防火墙配置VPN.
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| Cisco
Secure Intrusion Detection System(CSIDS)课程介绍 |
| * 网络安全基础; |
* 使用nrConfigure; |
* IDS环境; |
| * 预安装和实施; |
* Director安装; |
* Sensor安装; |
| * 报警管理; |
* IDS信号; |
* 配置入侵检测和响应; |
| * 设备管理; |
* IDS配置文件. |
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| VOICE
CCIE |
CCIE certification in Voice
indicates expert level knowledge of VoIP solutions
in the enterprise. Candidates should be able
to install, configure and maintain Voice solutions
over IP networks. The CCIE Voice track, however,
does not certify an understanding of the infrastructure
over which VoIP solutions are implemented.
This contrasts with the CCIE Service Provider-IP
Telephony track which certifies an individual
as a core IP expert with a high degree of
VoIP literacy.
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| Becoming
a CCIE requires passing a set of exams |
| There
are no formal prerequisites for CCIE
certification. Other professional certifications
and/or specific training courses are
not required. Instead, candidates are
expected to have an in-depth understanding
of the subtleties, intricacies and challenges
of end-to-end networking. You are strongly
encouraged to have 3-5 years of job
experience before attempting certification.
To obtain your CCIE, you must first
pass a written qualification exam and
then a corresponding hands-on lab exam.
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| Written
Exam Blueprint |
The
Voice written exam (#350-030) has 100
multiple-choice questions and is two
hours in duration. The topic areas listed
are general guidelines for the type
of content that is likely to appear
on the exam. Please note, however, that
other relevant or related topic areas
may also appear.
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I.
Campus Design
A. In line power CDP discovery
B. Port Numbers
C. VLANs
D. CDP Exchanges
III.
Architecture and Protocols
A. MGCP
B. SCCP
C. ISDN
D. QSIG
E. FXO caller ID
F. Analog FXS, FXO, E&M
G. FXO Answer/Disconnect Supervision
H. PRI NFAS
I. CAMA
J. DID
K. Standards: H.245, G.711, G.726,
G.729, H.225
L. PCM
M. RTP
N. VAD
O. CRTP
P. Fax Relay
V.
Security
A. AAA
B. Radius
C. NBAR
VII.
Dial Plan
A. Dial-Peers
B. DNIS
C. ANI
D. Connection Trunk
E. Connection Plar
F. Gatekeeper
IX.
Video
A. Protocols
B. General Knowledge
XI.
Fault Diagnosis
A. Basic Fault Diagnosis
B. IOS "show" commands
XIII.
Coexistence/Migration
A. Voicemail Integration
B. MWI
C. PBX
XV.
Capacity Planning (Application
Level)
A. Unity
B. CallManager
C. Call Admition Control
D. Application Level Planning
E. Control Plane Bandwidth
XVII.
Manageability Considerations
A. Route Pattern
B. Dial Plan
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II.
QoS
A. WAN
B. Campus
C. Delay
D. Jitter
E. CoS
F. ToS
IV. SMDI
A. Com-port based
B. VG-248-based
C. General SMDI Knowledge
VI.
Capacity Planning (Voice gateway/Network)
A. Erlang B, Erlang C
B. Device Weights
C. Load Balancing
D. Bandwidth Planning/Traffic
Engineering
VIII.
High Availability Considerations
A. SRST
B. HSRP
C. CallManager clustering
D. PSTN Connectivity to remote
sites
E. Gatekeeper Clustering
F. Alternative Gateways
X.
Echo Theory
A. Tail circuit
B. Acoustic echo
C. Electical echo
D. Canceller coverage
E. Cancellation Location
F. Standards
XII.
SIP Proxy
A. Basic theory
XIV.
Unified Messaging
A. Active Directory Integration
B. Call Manager
C. AMIS
XVI.
Call Processing
A. Route Pattern
B. Dial Plan
XVIII.
911/E911 considerations
A. Route Pattern
B. Dial Plan
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| Service
Provider CCIE |
| CCIE Service Provider
certification (formerly known as Communications
& Services) indicates expert level knowledge
and skill in the fundamentals of IP and core
IP technologies such as unicast IP routing,
QoS, multicast, MPLS, MPLS VPNs, traffic engineering,
and multi-protocol BGP, as well as specialized
knowledge in at least one of the networking
areas specific to service providers. These
areas include Dial, DSL, Cable, Optical, WAN
Switching, IP Telephony, Content Networking,
and Metro Ethernet. Becoming
a CCIE requires passing a set of exams
There are no formal prerequisites for CCIE
certification. Other professional certifications
and/or specific training courses are not
required. Instead, candidates are expected
to have an in-depth understanding of the
subtleties, intricacies and challenges of
end-to-end networking. You are strongly
encouraged to have 3-5 years of job experience
before attempting certification. To obtain
your CCIE, you must first pass a written
qualification exam and then a corresponding
hands-on lab exam.
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| Service
Provider General Knowledge Blueprint |
I.
Cisco Device Operation
A. Commands: show, debug
B. Infrastructure: NVRAM, Flash, Memory
& CPU, file system, config reg
C. Operations: file transfers, password
recovery, Simple Network Management
Protocol (SNMP), accessing devices,
security (passwords)
II.
General Networking Theory
A. OSI model: Layer comparisons, functions
B. General Routing Concepts: Split horizon,
difference between switching and routing,
summarization, Link State vs. Distance
Vector, loops, tunneling
C. Protocol comparisons: Transmission
Control Protocol (TCP), User Datagram
Protocol (UDP), etc.
D. Standards: 802.x, protocol limitations
E. Protocol Mechanics: Windowing/Acknowledgements
(ACK), fragmentation, maximum transmission
unit (MTU), handshaking, termination
III.
Bridging & LAN Switching
A. Transparent Bridging: IEEE/DEC spanning
tree, Configuration Bridging Protocol
Data Unit (BPDU), Integrated Routed
and Bridging (IRB), Concurrent Routing
and Bridging (CRB), access lists
B. LAN Switching: Trunking, VLAN Trunk
Protocol (VTP), inter-switch link (ISL),
Virtual LANs (VLANS), Fast Ether Channel
(FEC), Cisco Discovery Protocol (CDP),
Cisco Group Management Protocol (CGMP)
IV.
Internet Protocol (IP)
A. Addressing: Classless Interdomain
Routing (CIDR), subnetting, Address
Resolution Protocol (ARP), Network Address
Translation (NAT), Hot Standby Router
Protocol (HSRP)
B. Services: Domain Name System (DNS),
Bootstrap Protocol (BOOTP), Dynamic
Host Configuration Protocol (DHCP),
Internet Control Message Protocol (ICMP)
C. Applications: Telnet, File Transfer
Protocol (FTP), Trivial File Transfer
Protocol (TFTP)
D. Transport: IP fragmentation, sockets,
ports
E. Access Lists
V.
IP Routing Protocols
A. MPLS
B. Enhanced Interior Gateway Routing
Protocol (EIGRP): Metrics, mechanics,
& design
C. Intermediate System to Intermediate
System (IS-IS): Metrics, mechanics,
& design
D. Routing Information Protocol (RIP)
& RIP v2: : Metrics, mechanics,
& design
E. Multicast: Design, Protocol Independent
Multicast (PIM - both sparse and dense),
Distance Vector Multicast Routing Protocol
(DVMRP), Internet Group Management Protocol
(IGMP)
F. Access lists: distribute lists, route
maps, policy routing, redistribution,
route tagging
G. Open Shortest Path First (OSPF):
1. Design: areas, virtual links, stub,
not so stubby areas (NSSA), area border
router (ABR) / autonomous system boundary
router (ASBR) redistributions, media
dependencies, external vs. internal,
summarization
2. Operation: Designated Router (DR),
Backup Designated Router (BDR), adjacencies,
link-state advertisement (LSA) types,
link-state database, shortest path first
(SPF) algorithm, authentication
H. Border Gateway Protocol (BGP):
1. Design: Peer Groups, Route Reflectors,
Confederations, Clusters, Attributes,
Autonomous Systems (AS)
2. Operation: Route Maps, Filters, Neighbors,
decision algorithm, Interior Border
Gateway Protocol (IBGP), Exterior Border
Gateway Protocol (EBGP)
3. Multi-protocol BGP - Multicast and
VPN Address families
VI.
Performance Management
A. Traffic Management:
Queuing, Weighted Fair Queuing (WFQ),
Resource Reservation Protocol (RSVP),
traffic shaping, load balancing ,congestion
management
VII.
WAN (addressing, signaling, framing)
A. ISDN: Link Access
Procedure on the D channel (LAPD), Basic
Rate Interface (BRI) / Primary Rate
Interface (PRI) framing, signaling,
mapping, dialer map, interface types,
B/D channels, PPP Multilink
B. Frame relay: Local Management Interface
(LMI), Data Link Connection Identifier
(DLCI), Permanent Virtual Circuit (PVC),
framing, traffic shaping, forward explicit
congestion notification (FECN), backward
explicit congestion notification (BECN),
CIR, discard eligible (DE), mapping,
compression
C. ATM: Switched Virtual Connection
(SVC) / Permanent Virtual Connection
(PVC), ATM Adaptation Layer (AAL), Service
Specific Connection Oriented Protocol
(SSCOP), User-Network Interface (UNI)
/ Network-Network Interface (NNI), Interim
Local Management Interface (ILMI), Cell
format, Quality of Service (QoS), RFC
1483 & 1577, Private Network-Network
Interface (PNNI), Interim-Interswitch
Signaling Protocol (IISP), mapping
相关连接:http://www.cisco.com/en/US/learning/le3/ccie/sp/index.html
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| Storage
Networking CCIE, |
CCIE certification in Storage
Networking indicates expert level knowledge
of intelligent storage solutions over extended
network infrastructure using multiple transport
options such as Fibre Channel, iSCSI, FCIP
and FICON. Storage Networking extensions allow
companies to improve disaster recovery, optimize
performance and take advantage of network
services such as volume management, data replication,
and enhanced integration with blade servers
and storage appliances.
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| Becoming
a CCIE requires passing a set of exams |
There
are no formal prerequisites for CCIE
certification. Other professional certifications
and/or specific training courses are
not required. Instead, candidates are
expected to have an in-depth understanding
of the subtleties, intricacies and challenges
of end-to-end storage area networking.
You are strongly encouraged to have
3-5 years of job experience before attempting
certification. To obtain your CCIE,
you must first pass a written qualification
exam and then a corresponding hands-on
lab exam.
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| Storage
Networking Written Exam Blueprint |
I.
Cisco Device Operation
A. Commands (show, configuration and
debug)
B. System Level (bootflash, file system,
install/upgrade)
C. Operations (file transfers, SNMP,
accessing the device, license)
II.
General Fibre Channel Protocol
A. Standards
B. Physical interface (FC-0 )
C. Encoding and decoding (FC-1)
D. Link initialization (FC-1)
E. Framing protocol (FC-2)
F. Link and login session management
G. Fibre Channel names and addressing
H. Fibre Channel services
I. Fibre Channel mapping
J. Topologies (E, F, FL, TL, TE,
etc.)
K. Switch-to-Switch
1. FSPF
2. Zoning
3. Buffer-to-Buffer credit
4. Principal switch selection
5. ISL init
III.
Cisco Advanced Fibre Channel Features
A. Port Channel
B. VSAN
C. IPFC
D. Zoning (Read only, LUN)
E. Fabric security
F. High availability
G. Inter VSAN routing
H. Congestion control
I. Traffic engineering
J. Switch interoperability
K. AAA
VII. FICON
A. Debug
B. SPAN
C. FCAnalyzer
D. Logging
IX.
Advanced Management
A. Call home
B. Fabric manager server
C. Device manager
D. Performance manager
E. Security
F. RBAC
X. Storage Networking Design
A. Topology
B. Over subscription
C. Scalability
D. Performance |
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III.
Cisco Advanced Fibre Channel Features
A. Port Channel
B. VSAN
C. IPFC
D. Zoning (Read only, LUN)
E. Fabric security
F. High availability
G. Inter VSAN routing
H. Congestion control
I. Traffic engineering
J. Switch interoperability
K. AAA
IV.
Storage Networking Extension
A. iSCSI
B. FCIP
C. Optical extension
V. TCP/IP Protocol Stack
A. LAN/WAN performance
B. VLAN
C. IP performance
D. TCP performance
E. VRRP
F. Access control
VI. SCSI
A. Terminology
B. Operation
C. Error Recovery
VIII.
Storage Networking Application
A. Backup and recovery
B. Business continuation (disaster
recovery)
C. Virtualization
D. Storage consolidation
E. Terminology
F. Storage and HBA
G. OS concepts, persistence building,
HW path and FC_ID |
相关连接:http://www.cisco.com/en/US/learning/le3/ccie/san/index.html
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