CCNA - 640-607 vs 640-801

Author

640-607 vs 640-801

jawwadaq

2003-10-14, 7:01 am

Hi All;
I want to know what is the difference between the 640-607 and 640-801.If i practice 640-607 questionds.Will i able to give 640-801 papers.How much different it is.

rootfool

2003-10-14, 9:21 am

The first book:

the old book's contents

Chapter 1: Computing Basics
Chapter Overview
1.1 The Basics of Computer Hardware
1.2 The Basics of Computer Software
1.3 Binary Numbers
1.4 Basic Networking Terminology
1.5 Digital Bandwidth

Chapter 2: The OSI Model
Chapter Review
Chapter Overview
2.1 General Model of Communication
2.2 The OSI Reference Model
2.3 Comparison of the OSI Model and the TCP/IP Model

Chapter 3: Local Area Networks
Chapter Review
Chapter Overview
3.1 Basic LAN Devices
3.2 Evolution of Network Devices
3.3 Basics of Data Flow Through LANs
3.4 Building LANs

Chapter 4: Layer 1 - Electronics and Signals
Chapter Review
Chapter Overview
4.1 Basics of Electricity
4.2 Basics of Digital Multimeters
4.3 Basics of Signals and Noise in Communications Systems
4.4 Basics of Encoding Networking Signals

Chapter 5: Layer 1 - Media, Connections and Collisions
Chapter Review
Chapter Overview
Measurement Units Converter
5.1 Most Common LAN Media
5.2 Cable Specification and Termination
5.3 Making and Testing Cable
5.4 Layer 1 Components and Devices
5.5 Collisions and Collision Domains in Shared Layer Environments
5.6 Basic Topologies Used in Networking

Chapter 6: Layer 2 - Concepts
Chapter Review
Chapter Overview
6.1 LAN Standards
6.2 Hexadecimal Numbers
6.3 MAC Addressing
6.4 Framing
6.5 Media Access Control (MAC)

Chapter 7: Layer 2 - Technologies
Chapter Review
Chapter Overview
7.1 Basics of Token Ring
7.2 Basics of Fiber Distributed Data Interface (FDDI)
7.3 Ethernet and IEEE 802.3
7.4 Layer 2 Devices
7.5 Effects of Layer 2 Devices on Data Flow
7.6 Basic Ethernet 10BASE-T Troubleshooting

Chapter Summary
Chapter Quiz

Chapter 8: Design and Documentation
Chapter Review
Chapter Overview
8.1 Basic Network Design and Documentation
8.2 Planning Structured Cabling: Wiring Closet Specifications
8.3 Planning Structured Cabling: Identifying Potential Wiring Closets
8.4 Planning Structured Cabling: Selection Practice
8.5 Planning Structured Cabling: Horizontal and Backbone Cabling
8.6 Planning Structured Cabling: Electricity and Grounding
8.7 Planning Structured Cabling: Cabling and Grounding
8.8 Design Practice No. 1: Wiring Plan for Ethernet Star Topology LAN
8.9 Design Practice No. 2: Multiple Earth Ground Problems
8.10 Network Power Supply Issues: Power Line Problems
8.11 Network Power Supply Issues: Surge Suppressors and Uninterruptible Power Supply (UPS) Functions

Chapter 9: Structured Cabling Project
Chapter Review
Chapter Overview
9.1 Project Planning
9.2 RJ-45 Jack and Outlet Installation
9.3 Basics of Cable Installation
9.4 Structured Cable Run Installation
9.5 Stringing, Running, and Mounting Cable
9.6 Basics of Wiring Closets and Patch Panels
9.7 Range of Equipment for Testing Structured Cabling Projects

Chapter 10: Layer 3 - Routing and Addressing
Chapter Review
Chapter Overview
10.1 Importance of a Network Layer
10.2 Path Determination
10.3 IP Address within the IP Header
10.4 IP Address Classes
10.5 Reserved Address Space
10.6 Basics of Subnetting
10.7 Creating a Subnet

Chapter 11: Layer 3 - Protocols
Chapter Review
Chapter Overview
11.1 Layer 3 Devices
11.2 Network-to-Network Communications
11.3 Advanced ARP Concepts
11.4 Routable Protocols
11.5 Routing Protocols
11.6 Other Network Layer Services
11.7 ARP Tables
11.8 Interior Gateway Protocol (IGP) and Exterior Gateway Protocol (EGP)
11.9 Protocol Analyzer Software
11.9.1 Using protocol analyzer software for ARPs and broadcasts

Chapter 12: Layer 4 - The Transport Layer
Chapter Review
Chapter Overview
12.1 The Transport Layer
12.2 TCP and UDP
12.3 TCP Connection Methods

Chapter 13: Layer 5 - The Session Layer
Chapter Review
Chapter Overview
13.1 The Session Layer

Chapter 14: Layer 6 - The Presentation Layer
Chapter Review
Chapter Overview
14.1 The Presentation Layer

Chapter 15: Layer 7 - The Application Layer
Chapter Review
Chapter Overview
15.1 Basics of the Application Layer
15.2 Domain Name System
15.3 Network Applications
15.4 Application Layer Examples

the new book's contents

Module 1: Introduction to Networking
Module Overview
1.1 Connecting to the Internet
1.1.1 Requirements for Internet connection
1.1.2 PC basics
1.1.3 Network interface card
1.1.4 NIC and modem installation
1.1.5 Overview of high-speed and dial-up connectivity
1.1.6 TCP/IP description and configuration
1.1.7 Testing connectivity with ping
1.1.8 Web browser and plug-ins
1.1.9 Troubleshooting Internet connection problems

1.2 Network Math
1.2.1 Binary presentation of data
1.2.2 Bits and bytes
1.2.3 Base 10 number system
1.2.4 Base 2 number system
1.2.5 Converting decimal numbers to 8-bit binary numbers
1.2.6 Converting 8-bit binary numbers to decimal numbers
1.2.7 Four-octet dotted decimal representation of 32-bit binary numbers
1.2.8 Hexadecimal
1.2.9 Boolean or binary logic
1.2.10 IP addresses and network masks

Module Summary
Module Quiz

Module 2: Networking Fundamentals
Module Overview
2.1 Networking Terminology
2.1.1 Data networks
2.1.2 Network history
2.1.3 Networking devices
2.1.4 Network topology
2.1.5 Network protocols
2.1.6 Local-area networks (LANs)
2.1.7 Wide-area networks (WANs)
2.1.8 Metropolitan-area networks (MANs)
2.1.9 Storage-area networks (SANs)
2.1.10 Virtual private network (VPN)
2.1.11 Benefits of VPNs
2.1.12 Intranets and extranets

2.2 Bandwidth
2.2.1 Importance of bandwidth
2.2.2 Analogies
2.2.3 Measurement
2.2.4 Limitations
2.2.5 Throughput
2.2.6 Data transfer calculation
2.2.7 Digital versus analog

2.3 Networking Models
2.3.1 Using layers to analyze problems in a flow of materials
2.3.2 Using layers to describe data communication
2.3.3 OSI model
2.3.4 OSI layers
2.3.5 Peer-to-peer communications
2.3.6 TCP/IP model
2.3.7 Detailed encapsulation process

Module Summary
Module Quiz

Module 3: Networking Media
Module Overview
3.1 Copper Media
3.1.1 Atoms and electrons
3.1.2 Voltage
3.1.3 Resistance and impedance
3.1.4 Current
3.1.5 Circuits
3.1.6 Cable specifications
3.1.7 Coaxial cable
3.1.8 STP cable
3.1.9 UTP cable

3.2 Optical Media
3.2.1 The electromagnetic spectrum
3.2.2 Ray model of light
3.2.3 Reflection
3.2.4 Refraction
3.2.5 Total internal reflection
3.2.6 Multimode fiber
3.2.7 Single-mode fiber
3.2.8 Other optical components
3.2.9 Signals and noise in optical fibers
3.2.10 Installation, care, and testing of optical fiber

3.3 Wireless Media
3.3.1 Wireless LAN organizations and standards
3.3.2 Wireless devices and topologies
3.3.3 How wireless LANs communicate
3.3.4 Authentication and association
3.3.5 The radio wave and microwave spectrums
3.3.6 Signals and noise on a WLAN
3.3.7 Wireless security

Module Summary
Module Quiz

Module 4: Cabling Testing
Module Overview
4.1 Background for Studying Frequency-Based Cable Testing
4.1.1 Waves
4.1.2 Sine waves and square waves
4.1.3 Exponents and logarithms
4.1.4 Decibels
4.1.5 Viewing signals in time and frequency
4.1.6 Analog and digital signals in time and frequency
4.1.7 Noise in time and frequency
4.1.8 Bandwidth

4.2 Signals and Noise
4.2.1 Signaling over copper and fiber optic cabling
4.2.2 Attenuation and insertion loss on copper media
4.2.3 Sources of noise on copper media
4.2.4 Types of crosstalk
4.2.5 Cable testing standards
4.2.6 Other test parameters
4.2.7 Time-based parameters
4.2.8 Testing optical fiber
4.2.9 A new standard

Module Summary
Module Quiz

Module 5: Cabling LANs and WANs
Module Overview
5.1 Cabling the LAN
5.1.1 LAN physical layer
5.1.2 Ethernet in the campus
5.1.3 Ethernet media and connector requirements
5.1.4 Connection media
5.1.5 UTP implementation
5.1.6 Repeaters
5.1.7 Hubs
5.1.8 Wireless
5.1.9 Bridges
5.1.10 Switches
5.1.11 Host connectivity
5.1.12 Peer-to-peer
5.1.13 Client/server

5.2 Cabling the WAN
5.2.1 WAN physical layer
5.2.2 WAN serial connections
5.2.3 Routers and serial connections
5.2.4 Routers and ISDN BRI connections
5.2.5 Routers and DSL connections
5.2.6 Routers and cable connections
5.2.7 Setting up console connections

Module Summary
Module Quiz

Module 6: Ethernet Fundamentals
Module Overview
6.1 Ethernet Fundamentals
6.1.1 Introduction to Ethernet
6.1.2 IEEE Ethernet naming rules
6.1.3 Ethernet and the OSI model
6.1.4 Naming
6.1.5 Layer 2 framing
6.1.6 Ethernet frame structure
6.1.7 Ethernet frame fields

6.2 Ethernet Operation
6.2.1 Media Access Control (MAC)
6.2.2 MAC rules and collision detection/backoff
6.2.3 Ethernet timing
6.2.4 Interframe spacing and backoff
6.2.5 Error handling
6.2.6 Types of collisions
6.2.7 Ethernet errors
6.2.8 FCS and beyond
6.2.9 Ethernet auto-negotiation
6.2.10 Link establishment and full and half duplex

Module Summary
Module Quiz

Module 7: Ethernet Technologies
Module Overview
7.1 10-Mbps and 100-Mbps Ethernet
7.1.1 10-Mbps Ethernet
7.1.2 10BASE5
7.1.3 10BASE2
7.1.4 10BASE-T
7.1.5 10BASE-T wiring and architecture
7.1.6 100-Mbps Ethernet
7.1.7 100BASE-TX
7.1.8 100BASE-FX
7.1.9 Fast Ethernet architecture

7.2 Gigabit and 10 Gigabit Ethernet
7.2.1 1000-Mbps Ethernet
7.2.2 1000BASE-T
7.2.3 1000BASE-SX and LX
7.2.4 Gigabit Ethernet architecture
7.2.5 10-Gigabit Ethernet
7.2.6 10-Gigabit Ethernet architectures
7.2.7 Future of Ethernet

Module Summary
Module Quiz

Module 8: Ethernet Switching
Module Overview
8.1 Ethernet Switching
8.1.1 Layer 2 bridging
8.1.2 Layer 2 switching
8.1.3 Switch operation
8.1.4 Latency
8.1.5 Switch modes
8.1.6 Spanning-Tree Protocol

8.2 Collision Domains and Broadcast Domains
8.2.1 Shared media environments
8.2.2 Collision domains
8.2.3 Segmentation
8.2.4 Layer 2 broadcasts
8.2.5 Broadcast domains
8.2.6 Introduction to data flow
8.2.7 What is a network segment?

Module Summary
Module Quiz

Module 9: TCP/IP Protocol Suite and IP Addressing
Module Overview
9.1 Introduction to TCP/IP
9.1.1 History and future of TCP/IP
9.1.2 Application layer
9.1.3 Transport layer
9.1.4 Internet layer
9.1.5 Network access layer
9.1.6 Comparing the OSI model and the TCP/IP model
9.1.7 Internet architecture

9.2 Internet Addresses
9.2.1 IP addressing
9.2.2 Decimal and binary conversion
9.2.3 IPv4 addressing
9.2.4 Class A, B, C, D, and E IP addresses
9.2.5
Reserved IP addresses
9.2.6 Public and private IP addresses
9.2.7 Introduction to subnetting
9.2.8 IPv4 versus IPv6

9.3 Obtaining an IP Address
9.3.1 Obtaining an Internet address
9.3.2 Static assignment of an IP address
9.3.3 RARP IP address assignment
9.3.4 BOOTP IP address assignment
9.3.5 DHCP IP address management
9.3.6 Problems in address resolution
9.3.7 Address Resolution Protocol (ARP)

Module Summary
Module Quiz

Module 10: Routing Fundamentals and Subnets
Module Overview
10.1 Routed Protocol
10.1.1 Routable and routed protocols
10.1.2 IP as a routed protocol
10.1.3 Packet propagation and switching within a router
10.1.4 Internet Protocol (IP)
10.1.5 Anatomy of an IP packet

10.2 IP Routing Protocols
10.2.1 Routing overview
10.2.2 Routing versus switching
10.2.3 Routed versus routing
10.2.4 Path determination
10.2.5
Routing tables
10.2.6 Routing algorithms and metrics
10.2.7 IGP and EGP
10.2.8 Link state and distance vector
10.2.9 Routing protocols

10.3 The Mechanics of Subnetting
10.3.1 Classes of network IP addresses
10.3.2 Introduction to and reason for subnetting
10.3.3 Establishing the subnet mask address
10.3.4 Applying the subnet mask
10.3.5 Subnetting Class A and B networks
10.3.6 Calculating the resident subnetwork through ANDing

Module Summary
Module Quiz

Module 11: TCP/IP Transport and Application Layer
Module Overview
11.1 TCP/IP Transport Layer
11.1.1 Introduction to transport layer
11.1.2 Flow control
11.1.3 Session establishment, maintenance, and termination overview
11.1.4 Three-way handshake
11.1.5 Windowing
11.1.6 Acknowledgment
11.1.7 Transmission Control Protocol (TCP)
11.1.8 User Datagram Protocol (UDP)
11.1.9 TCP and UDP port numbers

11.2 The Application Layer11.2.1 Introduction to the TCP/IP application layer
11.2.2 DNS
11.2.3 FTP
11.2.4 HTTP
11.2.5 SMTP
11.2.6 SNMP
11.2.7 Telnet

Module Summary
Module Quiz

so ,we can see the differents is :
1. The new book introduced the SAN and VPN,although they're not rough,we can see that it contains more new technology.
2.tell the priciple of optical media in details.
3.introduced the wireless lan(WLAN)
4.introduced Gigabit and 10 Gigabit Ethernet
,those which even not be mentioned in CCNP in the past.

.

rootfool

2003-10-14, 9:22 am

The second book

the old book:
Chapter 1: Review
Chapter Overview
1.1 The OSI Model
1.2 LANs
1.3 TCP/IP Addressing
1.4 Host Layer (the Upper 4 Layers of the OSI Model)

Chapter 2: WANs and Routers
Chapter Review
Chapter Overview
2.1 WANs
2.2 WANs and Routers

Chapter 3: Router CLI
Chapter Review
Chapter Overview
3.1 Router User Interface
3.2 Using The Router Interface and Interface Modes

Chapter 4: Router Components
Chapter Review
Chapter Overview
4.1 Router Components
4.2 Router Show Commands
4.3 Router's Network Neighbors
4.4 Basic Networking Testing
4.5 Challenge Lab

Chapter 5: Router Startup and Setup
Chapter Review
Chapter Overview
5.1 Router Boot Sequence and Setup Mode
5.2 System Configuration Dialog
5.3 Challenge Lab

Chapter 6: Router Configuration 1
Chapter Review
Chapter Overview
6.1 Router Configuration Files
6.2 Router Configuration Modes
6.3 Configuration Methods
6.4 Challenge Labs

Chapter 7: IOS Images
Chapter Review
Chapter Overview
7.1 The Basics of IOS Versions
7.2 Bootstrap Options in Software
7.3 IOS Naming and Software Image Backup

Chapter 8: Router Configuration 2
Chapter Review
Chapter Overview
8.1 Configuring a Router from the CLI after Start-up Config has been Erased
8.2 Router Configuration Lab

Chapter 9: TCP/IP
Chapter Review
Chapter Overview
9.1 The TCP/IP Protocol Suite
9.2 Layer 3 Concepts

Chapter 10: IP Addressing
Chapter Review
Chapter Overview
10.1 IP Addressing and Subnetting
10.2 The Role of DNS in Router Configurations
10.3 Verifying Address Configuration
10.4 Assigning New Subnet Numbers to the Topology

Chapter 11: Routing
Chapter Review
Chapter Overview
11.1 Routing Basics
11.2 Why Routing Protocols are Necessary
11.3 Distance-Vector Routing
11.4 Link-State Routing
11.5 The Context of Different Routing Protocols

Chapter 12: Routing Protocols
Chapter Review
Chapter Overview
12.1 Initial Router Configuration
12.2 Interior and Exterior Routing Protocols
12.3 RIP
12.4 IGRP
12.5 Challenge Labs

Chapter 13: Network Troubleshooting
Chapter Review
Chapter Overview
13.1 Troubleshooting the 5-Router Network

and the new:
Module 1: WANs and Routers
Module Overview
1.1 WANs
1.1.1 Introduction to WANs
1.1.2 Introduction to routers in a WAN
1.1.3 Router LANs and WANs
1.1.4 Router role in a WAN
1.1.5 Academy approach to hands-on labs

1.2 Routers
1.2.1 Router internal components
1.2.2 Router physical characteristics
1.2.3 Router external connections
1.2.4 Management port connections
1.2.5 Connecting console interfaces
1.2.6 Connection LAN interfaces
1.2.7 Connecting WAN interfaces

Module Summary
Module Quiz

Module 2: Introduction to Routers
Module Overview
2.1 Operating Cisco IOS Software
2.1.1 The purpose of Cisco IOS software
2.1.2 Router user interface
2.1.3 Router user interface modes
2.1.4 Cisco IOS software features
2.1.5 Operation of Cisco IOS software

2.2 Starting a Router
2.2.1 Initial startup of Cisco routers
2.2.2 Router LED indicators
2.2.3 Examining the initial router bootup
2.2.4 Establishing a HyperTerminal session
2.2.5 Logging into the router
2.2.6 Keyboard help in the router CLI
2.2.7 Enhanced editing commands
2.2.8 Router command history
2.2.9 Troubleshooting command line errors
2.2.10 The show version command

Module Summary
Module Quiz

Module 3: Configuring a Router
Module Overview
3.1 Configuring a Router
3.1.1 CLI command modes
3.1.2 Configuring a router name
3.1.3 Configuring router passwords
3.1.4 Examining the show commands
3.1.5 Configuring a serial interface
3.1.6 Executing adds, moves, and changes
3.1.7 Configuring an Ethernet interface

3.2 Finishing the Configuration
3.2.1 Importance of configuration standards
3.2.2 Interface descriptions
3.2.3 Configuring interface description
3.2.4 Login banners
3.2.5 Configuring message-of-the-day (MOTD)
3.2.6 Host name resolution
3.2.7 Configuring host tables
3.2.8 Configuration backup and documentation
3.2.9 Copying, editing, and pasting configurations

Module Summary
Module Quiz

Module 4: Learning about Other Devices
Module Overview
4.1 Discovering and Connecting to Neighbors
4.1.1 Introduction to CDP
4.1.2 Information obtained with CDP
4.1.3 Implementation, monitoring, and maintenance of CDP
4.1.4 Creating a network map of the environment
4.1.5 Disabling CDP
4.1.6 Troubleshooting CDP

4.2 Getting Information about Remote Devices
4.2.1 Telnet
4.2.2 Establishing and verifying a Telnet connection
4.2.3 Disconnecting and suspending Telnet sessions
4.2.4 Advanced Telnet operation
4.2.5 Alternative connectivity tests
4.2.6 Troubleshooting IP addressing issues

Module Summary
Module Quiz

Module 5: Managing Cisco IOS Software
Module Overview
5.1 Router Boot Sequence and Verification
5.1.1 Stages of the router power-on boot sequence
5.1.2 How a Cisco device locates and loads IOS
5.1.3 Using the boot system command
5.1.4 Configuration register
5.1.5 Troubleshooting IOS boot failure

5.2 Managing the Cisco File System
5.2.1 IOS file system overview
5.2.2 IOS naming conventions
5.2.3 Managing configuration files using TFTP
5.2.4 Managing configuration files using copy and paste
5.2.5 Managing IOS images using TFTP
5.2.6 Managing IOS images using Xmodem
5.2.7 Environment variables
5.2.8 File system verification

Module Summary
Module Quiz

Module 6: Routing and Routing Protocols
Module Overview
6.1 Introduction to Static Routing
6.1.1 Introducing routing
6.1.2 Static route operation
6.1.3 Configuring static routes
6.1.4 Configuring default route forwarding
6.1.5 Verifying static route configuration
6.1.6 Troubleshooting static route configuration

6.2 Dynamic Routing Overview
6.2.1 Introduction to routing protocols
6.2.2 Autonomous systems
6.2.3 Purpose of a routing protocol and autonomous systems
6.2.4 Identifying the classes of routing protocols
6.2.5 Distance vector routing protocol features
6.2.6 Link-state routing protocol features

6.3 Routing Protocols Overview
6.3.1 Path determination
6.3.2 Routing configuration
6.3.3 Routing protocols
6.3.4 Autonomous systems and IGP versus EGP
6.3.5 Distance vector
6.3.6 Link-state

Module Summary
Module Quiz

Module 7: Distance Vector Routing Protocols
Module Overview
7.1 Distance Vector Routing
7.1.1 Distance vector routing updates
7.1.2 Distance vector routing loop issues
7.1.3 Defining a maximum count
7.1.4 Eliminating routing loops through split horizon
7.1.5 Route poisoning
7.1.6 Avoiding routing loops with triggered updates
7.1.7 Preventing routing loops with holddown timers

7.2 RIP
7.2.1 RIP routing process
7.2.2 Configuring RIP
7.2.3 Using the ip classless command
7.2.4 Common RIP configuration issues
7.2.5 Verifying RIP configuration
7.2.6 Troubleshooting RIP update issues
7.2.7 Preventing routing updates through an interface
7.2.8 Load balancing with RIP
7.2.9 Load balancing across multiple paths
7.2.10 Integrating static routes with RIP

7.3 IGRP
7.3.1 IGRP features
7.3.2 IGRP metrics
7.3.3 IGRP routes
7.3.4 IGRP stability features
7.3.5 Configuring IGRP
7.3.6 Migrating RIP to IGRP
7.3.7 Verifying IGRP configuration
7.3.8 Troubleshooting IGRP

Module Summary
Module Quiz

Module 8: TCP/IP Suite Error and Control Messages
Module Overview
8.1 Overview of TCP/IP Error Message
8.1.1 Internet Control Message Protocol (ICMP)
8.1.2 Error reporting and error correction
8.1.3 ICMP message delivery
8.1.4 Unreachable networks
8.1.5 Using ping to test destination reachability
8.1.6 Detecting excessively long routes
8.1.7 Echo messages
8.1.8 Destination unreachable message
8.1.9 Miscellaneous error reporting

8.2 TCP/IP Suite Control Messages
8.2.1 Introduction to control messages
8.2.2 ICMP redirect/change requests
8.2.3 Clock synchronization and transit time estimation
8.2.4 Information requests and reply message formats
8.2.5 Address mask requirements
8.2.6 Router discovery message
8.2.7 Router solicitation message
8.2.8 Congestion and flow control messages

Module Summary
Module Quiz

Module 9: Basic Router Troubleshooting
Module Overview
9.1 Examining the Routing Table
9.1.1 The show ip route command
9.1.2 Determining the gateway of last resort
9.1.3 Determining route source and destination
9.1.4 Determining L2 and L3 addresses
9.1.5 Determining the route administrative distance
9.1.6 Determining the route metric
9.1.7 Determining the route next hop
9.1.8 Determining the last routing update
9.1.9 Observing multiple paths to destination

9.2 Network Testing
9.2.1 Introduction to network testing
9.2.2 Using a structured approach to troubleshooting
9.2.3 Testing by OSI layers
9.2.4 Layer 1 troubleshooting using indicators
9.2.5
Layer 3 troubleshooting using ping
9.2.6 Layer 7 troubleshooting using Telnet

9.3 Troubleshooting Router Issues Overview
9.3.1 Troubleshooting Layer 1 using show interface
9.3.2 Troubleshooting Layer 2 using show interface
9.3.3 Troubleshooting using show cdp
9.3.4 Troubleshooting using traceroute
9.3.5 Troubleshooting routing issues
9.3.6 Troubleshooting using show controllers serial
9.3.7 Introduction to debug

Module Summary
Module Quiz

Module 10: Intermediate TCP/IP
Module Overview
10.1 TCP Operation
10.1.1 TCP operation
10.1.2 Synchronization or 3-way handshake
10.1.3 Denial of service attacks
10.1.4 Windowing and window size
10.1.5 Sequencing numbers
10.1.6 Positive ACK
10.1.7 UDP operation

10.2 Overview of Transport Layer Ports
10.2.1 Multiple conversations between hosts
10.2.2 Ports for services
10.2.3 Ports for clients
10.2.4 Port numbering and well-known port numbers
10.2.5 Example of multiple sessions between hosts
10.2.6 Comparison of MAC addresses, IP addresses, and port numbers

Module Summary
Module Quiz

Module 11: Access Control Lists (ACLs)
Module Overview
11.1 Access Control List Fundamentals
11.1.1 What are ACLs
11.1.2 How ACLs Work
11.1.3 Creating ACLs
11.1.4 The function of a wildcard mask
11.1.5 Verifying ACLs

11.2 Access Control Lists (ACLs)
11.2.1 Standard ACLs
11.2.2 Extended ACLs
11.2.3 Named ACLs
11.2.4 Placing ACLs
11.2.5 Firewalls
11.2.6 Restricting virtual terminal access

Module Summary
Module Quiz

Case Study: Routing
Case Study Routing

the difference:
1.introduced the components of router more in details
2¡£moved the IGRP from the third book to
here
3.added detailed content of ICMP(a whole chapter)
4.new content about Router Troubleshooting
5.moved ACL from the third book.

http://bbs.chinaitlab.com/UploadFile/200392713491530947.jpg

to be continue.....sorry but I have to leave.hope this can help you a bit and sorry about my bad english

sourav

2003-10-14, 2:22 pm

ya ...you can appear the new track(801) with prep of 607 but keep in mind new exam consists of more sim so be confident of sim with ip,rip,igrp,acl configuration and trblsht

diff betwn two tracks
exclusion of IPX
inclusion of

concept EIGRP,OSPF config
VPN ,NAT & SNA
VLSM & CIDR

I hope u can cover these new topics from any ccnp books or from net

so get ready to appear the new
bol

xakeP

2003-10-15, 2:39 pm

thanks for the info

nightdiamond

2003-10-17, 3:42 am

Hi,

According to cisco's website these have been added for the new CCNA:
- Switching configuration
- OSPF/EIGRP routing protocols
- VLSM(Variable Length Subnet Mask)

Confirm by clicking on this link:

http://ciscocert.custhelp.com/cgi-b...ated=1056482548

Hope it helps!
Cheers,
NightDiamond

nightdiamond

2003-10-17, 3:42 am

mgdooky

2003-10-17, 5:56 am

Is there any about novell ipx in 801???
In Toddy and in odom books, is there ipx chapters???

Sponsored Links