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CCNA Sertifikasyon Programı toplam 3
kurdan oluşmaktadır. Kurların süreleri* ve içerikleri hakkında
detaylı bilgi aşağıda verilmiştir.
1.kur
(Normal Kur : 5 hafta, Hızlandırılmış kur : 5
gün)
2.kur
(Normal Kur : 5 hafta, Hızlandırılmış kur : 5
gün)
3.kur (Normal Kur : 8 hafta, Hızlandırılmış kur
: 8 gün)
(*) Kur süreleri ile
ilgili açıklamalar için lütfen eğitim takvimi
bölümünü
okuyunuz.
1.kur (Normal Kur : 5 hafta,
Hızlandırılmış kur : 5
gün)
1.Introduction
1.1 Overview of Cisco Certifications
1.1.1 What’s on the CCNA Exam?
2. Hardware components of a PC
2.1 Network Interface Card (NICs)
2.2 Types of LAN adapters
2.3 NIC Selection Criterias (Type of Network, Media,
System Bus)
2.4 Installing and configuring NICs
2.5 Simple TCP/IP configuration
3. Decimal, Binary and Hexadecimal Number Systems
3.1 Conversion Routines between number systems
(Decimal to Binary, Binary to Decimal, Binary to
Hexadecimal, ...)
3.2 Examples
3.2.1 IP address (Dotted Decimal Notation)
3.2.2 IP address (Binary form)
3.2.3 MAC Address
4. Introduction to Networking Technologies
4.1 Evolution of Data Networks
4.2 Basic Terminology and Components
4.2.1 Local area networks (LAN) and related
devices
4.2.1.1 Hubs
4.2.1.2 Bridges, Switches
4.2.1.3 Routers
4.2.1.4 ATM switches, Multilayer switches
4.2.1.5 Wireless Technologies
4.2.2 Wide area networks (WAN) and related devices
4.2.2.1 Routers
4.2.2.2 Core switches
4.2.2.3 Modems, CSU/DSUs
4.2.2.4 Communication Servers
4.2.2.5 WAN Switches
4.2.2.6 xDSL Technologies
4.2.2.7 Cable Networks
4.2.2.8 Optical Networks
4.2.2.9 Wireless Technologies
4.2.3 Bandwidth, Throughput, Media Speed concepts
4.3 Examples of Data Networks
5. OSI Reference Model & Layered Communication
5.1 Why a Layered Network Model? Benefits and
Concepts.
5.2 Origin and Evolution of OSI Model Layers
5.3 Interaction between OSI Layers, Data Encapsulation
5.4 TCP/IP and Netware Protocol Stacks
5.5 Comparison of OSI, TCP/IP and Netware Protocols
5.6 Layer Functions Revisited
5.6.1 Physical Layer Functions
5.6.1.1 Introduction to Cabling Standards
5.6.1.2 Upcoming changes in Cabling Standards
5.6.2 Data Link Layer Functions
5.6.2.1 Using a Protocol Analyzer Software
5.6.3 Network Layer Functions
5.6.4 Transport Layer Functions
5.6.5 Session Layer Functions
5.6.6 Presentation Layer Functions
5.6.7 Application Layer Functions
6. Data Link
Layer Fundamentals: Ethernet LANs
6.1
Ethernet Standards
6.1.1 The Original Ethernet Standards: 10BASE2 and
10BASE5
6.1.2 10BASE-T Ethernet
6.2 Collisions and Duplex Settings
6.3 Ethernet Addressing
6.4 Ethernet Framing
6.5 Fast Ethernet
6.6 Gigabit Ethernet
7. Network Protocols
7.1
TCP/IP Protocols
7.1.1 TCP : Transmission Control Protocol
7.1.2 UDP : User Datagram Protocol
7.1.3 ARP : Address Resolution Protocol
7.1.4 ICMP : Internet Control Message Protocol
7.1.5 FTP & TFTP
7.2 IP Addressing and Subnetting
7.3 CIDR, Private Addressing, and NAT
7.4 IP Configuration
7.5 Variable-Lengt Subnet Masks
7.6 Route Summarization
7.7 Using Secondary Addresses
7.8 IP Version 6 Addressing
7.9 MTU and Fragmentation
7.10 IP Naming Commands and Telnet
7.10.1 Internal Networks and Encapsulation Types
8. Fundamentals of TCP and UDP
8.1 Typical Features of OSI Layer 4
8.2 The Transmission Control Protocol
8.3 Multiplexing Using TCP Port Numbers
8.4 Error Recovery (Reliability)
8.5 Flow Control Using Windowing
8.6 Connection Establishment and Termination
8.7 Connectionless and Connection-Oriented Protocols
8.8 Data Segmentation and Ordered Data Transfer
8.9 The User Datagram Protocol
9. Introduction to Routing
9.1 Network Layer Addressing Schemes (Flat and
Hierarchical)
9.2 Path Determination
9.3 Routed protocols vs Non-routable protocols
9.4 Routing Protocols
9.4.1 IGPs and EGPs
9.4.2 RIP, IGRP
9.5 Multiprotocol Routing
10. Final Exam for Semester 1
2.kur (Normal
Kur : 5 hafta, Hızlandırılmış kur : 5
gün)
1. WAN and LAN Technologies
Revisited
1.1 WAN Devices
1.3 Routers in LANs and WANs
1.4 OSI Layer 1 for Point-to-Point WANs
1.5 WAN Cabling Standards
1.6 Clock Rates, DCE, and DTE
1.7 OSI Layer 2 for Point-to-Point WANs
1.8 HDLC, Point-to-Point Protocol
1.9 Synchronization
1.10 Frame Relay Basics
1.11 ATM and SONET
1.12 WAN Cabling Standards
1.13 WAN Terminology Related to Packet Switching, Circuit
Switching
1.14 Other WAN Technologies
1.15 Perspectives on the PSTN
1.16 Telcos and Turk Telekom
2. Introduction to Lab
Topology
3. Cisco IOS Basics
3.1 The IOS and Its User Interface
3.2 Router Components
3.3 Command-Line Interface
3.3.1 User Mode and Privileged Mode
3.3.2 Navigating the IOS CLI
3.3.3 CLI Help Features
3.4 The Cisco IOS Software Boot Sequence
3.5 Configuration Processes and the Configuration File
3.5.1 Example Configuration Process
3.5.2 Managing Configuration Files
3.6 Cisco Discovery Protocol (CDP)
3.7 The debug ans show commands
3.8 Managing IOS Images
3.8.1 Upgrading an IOS Image into Flash Memory
3.8.2 Choosing Which IOS Image to Load
3.9 Password Recovery Procedures
3.10 Setup Mode
4. Basic Router Configuration and Operation
4.1 Configuring IP Addresses
4.2 Bandwidth, Clock Rate, and Serial Lines
4.3 IP Troubleshooting Features
4.4 Internet Control Message Protocol
4.5 IP Naming Commands
4.6 Telnet and Suspend
5. Routing
5.1 Static Routing
5.1.1 Default Routes, Stub Networks
5.2 Dynamic Routing
5.2.1 Distance Vector Routing Protocols
5.2.1.1 Comparing Routing Protocols
5.2.1.2 Distance Vector Routing
5.2.2 Configuration of RIP and IGRP
5.2.3 The network Command
5.2.4 IGRP Metrics
5.2.5 Split Horizon and Infinity
5.2.6 Hold-down timers
5.2.6 RIP-1 and IGRP—No Subnet Masks
5.2.7 RIP Version 2
5.2.7 Balanced Hybrid Protocols: Enhanced IGRP
5.2.8 Auto Summary and Route Aggregation
5.2.9 Multiple Routes to the Same Subnet
5.2.10 Troubleshooting Routing and Routing Protocols
5.3 Default Route vs. Default Gateway, Default Network
revisited.
6. Network Troubleshooting
6.1 Usage of Ping & Traceroute
6.2 Cisco Discovery Protocol (CDP) revisited.
6.3 Scenarios for the Curriculum Review (Practice Labs)
7. Final Exam for Semester 2
3.kur (Normal Kur
: 8 hafta, Hızlandırılmış kur : 8
gün)
1. Bridges/Switches and LAN Design
1.1 LAN Overview
1.2 LAN Addressing
1.3 LAN Framing
1.4 Fast Ethernet and Gigabit Ethernet
1.5 LAN Standards
1.6 Bridging, Switching
1.6.1 Transparent Bridging
1.6.2 LAN Switching
1.6.3 Comparison of LAN Segmentation Using Bridges,
Switches, and Routers
1.7 The Forward-Versus-Filter Decision
1.8 How Switches Learn MAC Addresses
1.9 Forwarding Unknown Unicasts and Broadcasts
1.10 Basic Switch Configuration and switch types revisited
1.11 Port Security Configuration
2. Spanning Tree Protocol
2.1 Spanning Tree Protocol
2.2 What IEEE 802.1d Spanning Tree Does
2.3 How Spanning Tree Works
2.4 EtherChannel
2.5 PortFast
2.6 Rapid Spanning Tree
2.7 Spanning Tree Protocol Configuration
2.8 Changing STP Port Costs and Bridge Priority
3. Virtual LANs and Trunking
3.1 VLAN Summary
3.2 LAN Switch Configuration
3.2.1 Advanced 1900 and 2950 Switch Configuration
3.2.2 Basic VLAN Configuration
3.3 Trunking with ISL and 802.1Q
3.4 ISL and 802.1Q Compared
3.5 VLAN Trunking Protocol (VTP)
3.6 How VTP Works
3.7 VTP Pruning
3.8 VLAN and Trunking Configuration
3. Understanding Access List Security
3.1 Filtering IP Traffic
3.1.1 Standard IP Access Lists
3.1.2 Wildcard Masks
3.1.2 Extended IP Access Lists
3.1.3 Named IP Access Lists
3.1.4 Controlling vty Access with IP Access Lists
3.1.5 IP Access List Summary
3.2 Filtering IPX Traffic and SAPs
3.2.1 IPX Packet Filters (Access Lists)
3.2.2 Standard IPX Access Lists
3.2.3 Extended IPX Access Lists
3.2.4 SAP Filters
3.2.5 Named IPX Access Lists
4. WAN Protocols and Design
4.1 Review of WAN Basics
4.1.1 Physical Components of Point-to-Point Leased Lines
4.1.2 Data-Link Protocols for Point-to-Point Leased
Lines
4.2 Point-to-Point Leased Lines
4.2.1 HDLC and PPP Configuration
4.2.2 WAN Cabling Standards
4.3 PPP-Specific Features
4.3.1 Looped Link Detection
4.3.2 Enhanced Error Detection
4.3.3 Authentication Over WAN Links
4.3.4 PAP and CHAP Authentication
5. ISDN Protocols and Design
5.1 ISDN Channels
5.2 ISDN Protocols
5.3 ISDN Function Groups and Reference Point
5.4 Typical Use of ISDN
5.4.1 PAP and CHAP
5.4.2 Multilink PPP
5.5 Dial-on-Demand Routing and ISDN Configuration
5.5.1 DDR Legacy Concepts and Configuration
5.6 A Comparison of WAN Options
6. Frame Relay
6.1 Frame Relay Protocols and Standards
6.1.1 Frame Relay Features and Terminology
6.1.2 LMI and Encapsulation Types
6.1.3 DLCI Addressing and Frame Relay Switching
6.1.4 Network Layer Concerns with Frame Relay
6.1.5 How Address Mapping Works
6.1.6 Review: Basic Frame Relay Initialization
6.1.7 Compression
6.2 Frame Relay Configuration
6.2.1 Configuring Networks Without Subinterfaces
6.2.2 Configuring Networks with Point-to-Point
Subinterfaces
6.2.3 Configuring Networks with Coexisting Point-to-Point
and Multipoint
6.2.4 Subinterfaces
6.2.5 Payload Compression Configuration
7. Advanced TCP/IP Topics
7.1 Scaling the IP Address Space for the Internet
7.1.1 CIDR
7.1.2 Private Addressing
7.2 Network Address Translation
7.1.1 NAT and PAT Concepts
7.1.2 Static NAT
7.1.3 Dynamic NAT
7.1.4 Overloading NAT with Port Address Translation
(PAT)
7.1.5 Translating Overlapping Addresses
7.1.6 NAT Configuration
7.3 Internet Control Message Protocol (ICMP) and ICMP
Message Types
7.4 Secondary IP Addressing
7.5 FTP and TFTP
8. Link-State Routing Protocol and OSPF Concepts
8.1 Single Area OSPF Concepts
8.2 Scaling OSPF Through Hierarchical Design
8.3 OSPF Areas
8.4 OSPF Configuration
8.4.1 OSPF Single-Area Configuration
8.4.2 OSPF Configuration with Multiple Areas
9. Scenarios for the Curriculum Review (Practice and
troubleshooting Labs)
10. Final Exam for Semester 3
11. CCNA Exams (10 Sample Test*)
(*) Tests covering all semesters will be given during the 3.semester
courses)
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