Cisco Certified Internetwork Expert (Routing & Switching) Course Outline

Cisco Certified Internetwork Expert (Routing & Switching)

CCIE is a high level certification program designed to identify and serve the best of internetworking experts. The CCIE written and the lab exams assume that the students have an expert level knowledge of Cisco IOS. The CCIE labs are two days of hands on network construction and troubleshooting.

The Path to CCIE

The two requirements to become a CCIE are a passing grade on the Routing and Switching qualification exam and a passing grade on the Routing and Switching lab exam. The qualification exam is a prerequisite for attempting and scheduling the lab exam.
CISCOM offers a two month course with thrice a week class schedule, after CCNP, for the preparation of CCIE Qualifying Exam.
CISCOM highly recommends that the potential CCIE’s have an absolute minimum of 250 hours of hands on experience working with Cisco routers in complex networking scenarios, last hundred hours of hands on experience should occur no earlier than six weeks before the exam. You want this information to be fresh. CISCOM’s mission is to provide the hardware, documented labs and coaching so that you will have the skills to master these concepts. (Unless you are very bright), your practice lab whether it’s ours, yours or your employer’s should have at least eight routers with one of them having a minimum 8 serial. The lab comprises Cisco 3600, 2600, 2500 series routers, Catalyst 5000, 3550 and 2950 series switches, PIX firewall, VoIP Gateways and access servers. The latest literature and documentation for this course will also be provided.

Cisco Certified Internetwork Expert (Routing & Switching)

CCIE is a high level certification program designed to identify and serve the best of internetworking experts. The CCIE written and the lab exams assume that the students have an expert level knowledge of Cisco IOS. The CCIE labs are two days of hands on network construction and troubleshooting.

The Path to CCIE

The two requirements to become a CCIE are a passing grade on the Routing and Switching qualification exam and a passing grade on the Routing and Switching lab exam. The qualification exam is a prerequisite for attempting and scheduling the lab exam.
CISCOM offers a two month course with thrice a week class schedule, after CCNP, for the preparation of CCIE Qualifying Exam.
CISCOM highly recommends that the potential CCIE’s have an absolute minimum of 250 hours of hands on experience working with Cisco routers in complex networking scenarios, last hundred hours of hands on experience should occur no earlier than six weeks before the exam. You want this information to be fresh. CISCOM’s mission is to provide the hardware, documented labs and coaching so that you will have the skills to master these concepts. (Unless you are very bright), your practice lab whether it’s ours, yours or your employer’s should have at least eight routers with one of them having a minimum 8 serial. The lab comprises Cisco 3600, 2600, 2500 series routers, Catalyst 5000, 3550 and 2950 series switches, PIX firewall, VoIP Gateways and access servers. The latest literature and documentation for this course will also be provided.

Course Outline

CCIE Routing and Switching (Written Exam) Course Outline

Cisco Device Operation

• Commands (show, debug)
• Infrastructure (NVRAM, Flash, Memory & CPU, File system, config reg)
• Operations (file transfers, Password recovery, SNMP, Accessing the device, Security, Security [password])

 
General Networking Theory

• OSI Models
• General Routing Concepts (Split horizon, Link state, difference between switching and routing, Summarization, Link state vs. Distance vector, loops, Tunneling)
• Standards (802.x, cable specs, protocol limitations)
• Protocol Mechanics (Windowing/ACK, fragmentation, MTU, handshaking, termination)

 
Bridging and LAN Switching

• Transparent (IEEE/DEC Spanning tree, Translational, IRB, ACLs, MISTP)
• SRB (SRT/LB, SRT, DLSw, RSRB, ACLs)
• LAN Switching (Trunking, VTP, DISL, VLANS, Fast Ether Channel (FEC), CDP, CGMP)
• Security (VACL, RACL, Private VLANS)
• MLS

 
IP

• Addressing (CIDR, subnetting, ARP, NAT, HSRP)
• Services (DNS, BOOTP, DHCP, ICMP)
• Applications (telnet, FTP, TFTP)
• Transport (IP fragmentation, sockets, ports)
• ACLs
• IPv6 (Basic)

 
IP Routing

• OSPF (I -Design: areas, Virtual links, stub, NSSA, ABR/ASBR redistributions, media dependencies, external vs. internal, Summarization. II - Operation: DR, BDR, adjacencies, LSA types, link state database, SPF algorithm, authentication)
• BGP( I -Design: Peer Groups, Route Reflectors, Confederations, Clusters, Attributes, AS. II - Operation: Route Maps, Filters, Neighbors, decision algorithm, IBGP, EBGP)
• EIGRP (Metrics, mechanics, & design)
• IS-IS (Metrics, mechanics, & design)
• ACLs (distribute lists, route maps, policy routing, redistribution, route tagging)
• DDR (dial backup)
• IGRP
• RIP
• RIPv2

 
QoS

• Fancy Queuing
• PoS and IP precedence
• CoS
• Weighted RED
• WRR/queu scheduling
• Shaping vs. Policing (rate limiting)/CAR
• NBAR
• 802.1X
• DSCP

 
WAN

• ISDN (LAPD, BRI/PRI framing, signaling, mapping, NI1s, dialer map, interface types, B/D channel, channel bonding)
• Frame Relay (LMIs, DLCI, PVC, framing, traffic shaping, FECN, BECN, CIR, DE, Mapping, compression)
• ATM (PVC/SVC, AAL, SSCOP, UNI/NNI, ILMI, Cell format, QoS, RFC 1483, PNNI, mapping)
• Physical Layer (Synchronization, SONET, T1, E1, encoding)
• Leased Line Protocols (HDLC, PPP, Async & modems, compression)
• PoS
• DPT/SRP

 
LAN

• Data Link Layer (addressing, 802.2)
• Ethernet/FE/GE (encapsulation, CSMA/CD, topology, speed, controller errors, limitations)
• Wireless/802.11b

 
Multiservice

• Voice/Video (H323)
• codecs
• SS7
• RTP
• RTCP
• SIP
• MPLS

 
IP Multicast

• IGMP/CGMP (IGMPv1, IGMPv2, Designated Querier)
• Addressing (Group addresses, Admin Group, Link-local L3-to-L2 Mapping)
• Distribution Trees (Shared Trees, Source Trees)
• PIM-SM Mechanics (Joining, Pruning PIM State, Mroute table)
• Rendezvous Points (Auto-RP, BSR)

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