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Cisco 640-801,
640-811, 640-821
Cisco Certified Network
640 Exam Bundle
Interactive Instructor Based
Video Training Course
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Prices Vary
(See below)
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Cisco CCNA Exam 640-801 is an IT industry employment must-have! For true IT professionals that want networking skills, Cisco CCNA Exam 640-801 will cover many of those networking areas. Cisco CCNA Exam 640-801 is an exam comprised of questions from the Interconnecting Cisco Network Devices (ICND) course along with questions from the Introduction to Cisco Networking Technologies (INTRO) course. Cisco CCNA Exam 640-801 will help you select, connect, configure, and troubleshoot Cisco networking devices. Cisco CCNA Exam 640-801 training will truly prepare you for the exam, and the real networking world.
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Trainer
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Outline
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Specials
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Buy Options
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Trainer Information:
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About This Course:
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Cisco CCNA Exam 640-801 is an exam comprised of questions from the Interconnecting Cisco Network Devices (ICND) course along with questions from the Introduction to Cisco Networking Technologies (INTRO) course. Cisco CCNA Exam 640-801 will help you select, connect, configure, and troubleshoot Cisco networking devices. Some of the specifics of the Cisco CCNA Exam 640-801 are extending switched networks with VLANS, Determining IP Routes, Managing IP traffic with Access Lists, Establishing Point-to-Point connections, and Establishing Frame Relay Connections. Cisco CCNA Exam 640-801 training will also cover things such as a good understanding of the OSI model and switched networks. This course will aid your best understanding of Cisco CCNA Exam 640-801 and help you to pass Cisco CCNA Exam 640-801.
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1.1 Network components
1.2 Network topologies
1.3 Types of networks
- Local area networks
- Wide area networks
- Storage area networks
- Virtual private networks
2.1 Model concepts
2.2 Physical layer
- Understanding hubs
- Cabling options
2.3 Data Link Layer
- Data Link sub-layers
- Understanding switches
- Understanding Bridges
2.4 Network Layer
- Network layer protocols
- How routers work
2.5 Transport Layer
- Transport layer protocols
2.6 Upper layers
- Upper layer protocols
2.7 Troubleshooting using the OSI model
- Where is the problem at?
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4.1 How we count
4.2 Binary Digits
4.3 Hexadecimal
5.1 Understanding Protocols
- TCP
- UDP
- IP
- ICMP
- ARP and RARP
5.2 Addressing
- Logical addressing concepts
- Counting in Binary
- Understanding Hexadecimal
- IP address classes
- IP addresses logically divided
- Subnet Masks
- How masking works
5.3 Configuring IP addresses
- Static configurations
- Dynamic (DHCP) configuration
6.1 Switches
6.2 Routers
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1.1 How to connect to a router
3.1 Interface modes
4.1 Entering commands
4.2 Accessing help
4.3 Abbreviations
4.4 Errors and feedback
4.5 Command history
4.6 Shortcut keys
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5.1 Accessing the CLI
5.2 CLI modes
5.3 Basic configuration commands
5.4 Configuring interfaces
- Assigning IP addresses
5.5 Managing and saving configuration files
5.6 Verification commands
6.1 Accessing the CLI
6.2 CLI modes
6.3 Basic configuration commands
6.4 Configuring interfaces
- Assigning IP addresses
6.5 Managing and saving configuration files
6.6 Verification commands
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1.1 Bridging and switching
1.2 Switching methods
1.3 Switch connections
3.1 Concepts in design
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4.1 Concepts in design
4.2 Static routes
4.3 Dynamic routes
- Distance vector protocols
- Link state protocols
- Overcoming problems with Distance vector protocols
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1.2 Router command
1.3 Network command
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2.1 Configuring RIP
2.2 Configuring IGRP
2.3 Configuring OSPF
2.4 Configuring EIGRP
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1.1 Understanding variable length subnet masks (VLSM)
1.2 Route summarization
2.1 IP access lists concepts
2.2 Basic access list
2.3 Wildcard masks
2.4 Standard access lists
2.5 Extended access lists
3.1 Network address translation
3.2 Port address translation
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4.1 Server configuration
4.2 Client configuration
5.1 WAN concepts
5.2 HDLC concepts
- Frame types
- Planning and configuring HDLC
5.3 PPP concepts
- Configuring PPP
- Troubleshooting PPP
5.4 Frame Relay concepts
- Virtual circuits
- Understanding Frame Relay operations
- Configuring Frame Relay
- Frame Relay topologies
- Split horizon
5.5 ISDN concepts
- ISDN configuration
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1.1 What layer / what device?
1.2 Sample troubleshooting scenarios
2.1 Router connectivity problems
2.2 Troubleshooting commands
3.1 Data Link layer troubleshooting
3.2 VLAN problem solving
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4.1 Troubleshooting at the Network layer
4.2 Overcoming problems with Distance Vector
5.1 Solving problems with PPP
5.2 Troubleshooting Frame Relay
5.3 Troubleshooting procedures for ISDN
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About This Course:
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Cisco CCNA Exam 640-811 Interconnecting Cisco Networking Devices (ICND) is one of the two exams required to obtain the Cisco Certified Network Associate CCNA certification. In Cisco CCNA Exam 640-811 Interconnecting Cisco Networking Devices (ICND), you will be tested on knowledge of selecting, connecting, configuring, and troubleshooting Cisco network devices. Cisco CCNA Exam 640-811 Interconnecting Cisco Networking Devices (ICND) will cover extending switched networks with VLANS, Determining IP Routes, Managing IP traffic with Access Lists, Establishing Point-to-Point connections, and Establishing Frame Relay Connections, among other things. The OSI Model, Command Line Interface, DHCP, and security planning and design will also be covered in Cisco CCNA Exam 640-811 Interconnecting Cisco Networking Devices (ICND) training. Don’t let the competition out-smart you, out-certify you, or even take your job, train to be the best you possibly can for Cisco CCNA Exam 640-811 Interconnecting Cisco Networking Devices (ICND).
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1.1 Network components
1.2 Network topologies
1.3 Types of networks
- Local area networks
- Wide area networks
- Storage area networks
- Virtual private networks
2.1 Model concepts
2.2 Physical layer
- Understanding hubs
- Cabling options
2.3 Data Link Layer
- Data Link sub-layers
- Understanding switches
- Understanding Bridges
2.4 Network Layer
- Network layer protocols
- How routers work
2.5 Transport Layer
- Transport layer protocols
2.6 Upper layers
- Upper layer protocols
2.7 Troubleshooting using the OSI model
- Where is the problem at?
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4.1 How we count
4.2 Binary Digits
4.3 Hexadecimal
5.1 Understanding Protocols
- TCP
- UDP
- IP
- ICMP
- ARP and RARP
5.2 Addressing
- Logical addressing concepts
- Counting in Binary
- Understanding Hexadecimal
- IP address classes
- IP addresses logically divided
- Subnet Masks
- How masking works
5.3 Configuring IP addresses
- Static configurations
- Dynamic (DHCP) configuration
6.1 Switches
6.2 Routers
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1.1 How to connect to a router
3.1 Interface modes
4.1 Entering commands
4.2 Accessing help
4.3 Abbreviations
4.4 Errors and feedback
4.5 Command history
4.6 Shortcut keys
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5.1 Accessing the CLI
5.2 CLI modes
5.3 Basic configuration commands
5.4 Configuring interfaces
- Assigning IP addresses
5.5 Managing and saving configuration files
5.6 Verification commands
6.1 Accessing the CLI
6.2 CLI modes
6.3 Basic configuration commands
6.4 Configuring interfaces
- Assigning IP addresses
6.5 Managing and saving configuration files
6.6 Verification commands
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1.1 Bridging and switching
1.2 Switching methods
1.3 Switch connections
3.1 Concepts in design
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4.1 Concepts in design
4.2 Static routes
4.3 Dynamic routes
- Distance vector protocols
- Link state protocols
- Overcoming problems with Distance vector protocols
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1.2 Router command
1.3 Network command
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2.1 Configuring RIP
2.2 Configuring IGRP
2.3 Configuring OSPF
2.4 Configuring EIGRP
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1.1 Understanding variable length subnet masks (VLSM)
1.2 Route summarization
2.1 IP access lists concepts
2.2 Basic access list
2.3 Wildcard masks
2.4 Standard access lists
2.5 Extended access lists
3.1 Network address translation
3.2 Port address translation
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4.1 Server configuration
4.2 Client configuration
5.1 WAN concepts
5.2 HDLC concepts
- Frame types
- Planning and configuring HDLC
5.3 PPP concepts
- Configuring PPP
- Troubleshooting PPP
5.4 Frame Relay concepts
- Virtual circuits
- Understanding Frame Relay operations
- Configuring Frame Relay
- Frame Relay topologies
- Split horizon
5.5 ISDN concepts
- ISDN configuration
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1.1 What layer / what device?
1.2 Sample troubleshooting scenarios
2.1 Router connectivity problems
2.2 Troubleshooting commands
3.1 Data Link layer troubleshooting
3.2 VLAN problem solving
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4.1 Troubleshooting at the Network layer
4.2 Overcoming problems with Distance Vector
5.1 Solving problems with PPP
5.2 Troubleshooting Frame Relay
5.3 Troubleshooting procedures for ISDN
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About This Course:
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Cisco CCNA Exam 640-821 Introduction to Cisco Networking Technologies (INTRO) is one of the two exams required to obtain the Cisco certified Network Associate CCNA certification. You will learn the basics of Cisco networking technologies, including network types, network media, switching fundamentals, TCP/IP, IP addressing and routing, WAN technologies, operating and configuring ISO devices, and managing network environments in Cisco CCNA Exam 640-821 Introduction to Cisco Networking Technologies (INTRO) training. A thorough understanding of the described concepts in the training course will help you pass the Cisco CCNA Exam 640-821 Introduction to Cisco Networking Technologies (INTRO) and equip you better for the networking environment. Don’t go on without proper training, get Cisco CCNA Exam 640-821 Introduction to Cisco Networking Technologies (INTRO) training and increase your value.
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1.1 Network components
1.2 Network topologies
1.3 Types of networks
- Local area networks
- Wide area networks
- Storage area networks
- Virtual private networks
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2.1 Switches
2.2 Routers
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1.1 How to connect to a router
3.1 Interface modes
4.1 Entering commands
4.2 Accessing help
4.3 Abbreviations
4.4 Errors and feedback
4.5 Command history
4.6 Shortcut keys
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5.1 Accessing the CLI
5.2 CLI modes
5.3 Basic configuration commands
5.4 Configuring interfaces
- Assigning IP addresses
5.5 Managing and saving configuration files
5.6 Verification commands
6.1 Accessing the CLI
6.2 CLI modes
6.3 Basic configuration commands
6.4 Configuring interfaces
- Assigning IP addresses
6.5 Managing and saving configuration files
6.6 Verification commands
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1.1 Bridging and switching
1.2 Switching methods
1.3 Switch connections
2.1 Concepts in design
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3.1 Concepts in design
3.2 Static routes
3.3 Dynamic routes
- Distance vector protocols
- Link state protocols
- Overcoming problems with Distance vector protocols
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1.2 Router command
1.3 Network command
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2.1 Configuring RIP
2.2 Configuring IGRP
2.3 Configuring OSPF
2.4 Configuring EIGRP
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2.1 Frame types
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4.1 Virtual circuits
4.2 Understanding Frame Relay operations
4.3 Frame Relay topologies
4.4 Split horizon
5.1 ISDN configuration
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Note: Course outlines are subject to change.
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