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Understanding IP Addressing Everything You Ever Wanted To Know
May 26, 2017 Everything you ever wanted to know about the Mahalanobis Distance (and how to calculate it in Alteryx) (developed and written by Gwilym and Bethany). This blog is about something you probably did right before following the link that brought you here.
Understanding IP Addressing Everything You Ever Wanted To Know
This note covers the following topics: Internet Scaling Problems, Classful IP Addressing, Subnetting, Variable Length Subnet Masks (VLSM), Classless Inter-Domain Routing (CIDR), New Solutions for Scaling the Internet Address Space, IPv6 Resolves IPv4 Issues.
Author(s): 3Com Corporation
The Transmission Control Protocol (TCP) is one of the main protocols of the Internet protocol suite. Topics covered includes: Historical origin, Network function, TCP segment structure, Protocol operation, Vulnerabilities, TCP ports, Development, TCP over wireless networks, Hardware implementations, Debugging, Checksum computation.
Author(s): Wikipedia
This note covers the following topics: Basics of TCP/IP networks: Issues in layering, Switching and Scheduling: Medium access, switching, queueing and scheduling, Routing and Transport: Addressing, routing, TCP variants and congestion control, Applications and Security: Sockets, RPC, firewalls and cryptography.
Author(s): Sridhar Iyer
This note covers the following topics: Introduction and Review, Medium Access Control, IEEE LAN Standards, Local Area Networking Devices, IP Addressing, Routing, Transport Protocols, Application Support Protocols, Network Security, Wide Area Network.
Author(s): Dr. J. McDougall
This book explains about DNS and BIND 9.x on Linux (Fedora Core), BSD's (FreeBSD, OpenBSD and NetBSD) and Windows (Win 2K, XP, Server 2003). It is meant for newbies, Rocket Scientist wannabees and anyone in between.It explains the following topics in detail:Boilerplate and Terminology, DNS Overview, DNS Reverse Mapping, DNS Types, BIND (Berkeley Internet Name Daemon), DNS Sample Configurations, BIND named.conf Parameters, DNS Resource Records and DNS Operations.
Author(s): zytrax.com
This note covers the following topics: Domain Name System, Structure and message format, DNS Message format, Usage and file formats, Name Server Types, DNS Query Types, DNS Transport protocol, DNS Database, DNS Files.
Author(s): comptechdoc.org
This book covers the following topics: Core TCP/IP protocols, Architecture, history, standards, and trends, Network interfaces, Internetworking protocols, Transport layer protocols, Routing protocols, IP multicast, Mobile IP, Quality of service, IP version , Wireless IP, TCP/IP application protocols, Application structure and programming interfaces, Directory and naming protocols, Remote execution and distributed computing, File-related protocols, Mail applications, The Web, Network management, Wireless Application Protocol, Presence over IP, Advanced concepts and new technologies, Voice over Internet Protocol, Internet Protocol Television, TCP/IP security, Port based network access control, Availability, scalability, and load balancing.
Author(s): IBM Redbooks publication
This online book is a structured, introductory approach to the basic concepts and principles of the Transmission Control Protocol/Internet Protocol (TCP/IP) protocol suite, how the most important protocols function, and their basic configuration in the Microsoft Windows Vista, Windows Server 2008, Windows XP, and Windows Server 2003 families of operating systems.Covered topics are: Introduction to TCP/IP, Architectural Overview of the TCP/IP Protocol Suite, IP Addressing, Subnetting, IP Routing, Dynamic Host Configuration Protocol, Host Name Resolution, Domain Name System Overview, Windows Support for DNS, TCP/IP End-to-End Delivery, NetBIOS over TCP/IP, Windows Internet Name Service Overview, Internet Protocol Security and Packet Filtering, Virtual Private Networking, IPv6 Transition Technologies.
Author(s): Joseph Davies
Currently this section contains no detailed description for the page, will update this page soon.
Author(s):
An IP address is assigned to every computer on an Ethernet network. Like the street address for your home, an IP address identifies network computers. It helps traffic flow between computers because each one has its own IP address.
An IP address is formatted as a series of four values separated by periods:
Each value ranges from 0 through 255.
Each period is just a period.
For your home or office network, the IP address is most likely assigned by the router, using something called DHCP. The router keeps track of every computer’s NIC and maps an IP address to the NIC every time the computer joins the network. In the end, all computers have a unique IP address, and the world is safe for local networking.
The IP address assigned to your PC on a network is a local address. Similar IP addresses are used on the Internet to identify domains and other resources. Those are Internet IP addresses, separate from your local address.
The router is assigned an IP address by your Internet service provider (ISP). That IP address is an Internet IP address. It’s shared by all PCs on your network.
Local IP addresses start with 192.168 and 10.0.
The IP addresses discussed here are IPv4 addresses. Because the number of unique IP addresses is limited, a second standard, IPv6, has been established. The IPv6 standard allows for many more addresses, which will help accommodate future growth of the Internet.
If the router doesn’t assign an IP address, one must be configured manually.
No two computers on the network can have the same IP address.
IP is often prefixed by the acronym TCP, as in TCP/IP. The TCP part stands for Transfer Control Protocol: It’s simply a set of rules for transmitting information on a network. Technically, TCP/IP refers to the methods and engineering as opposed to a specific address or value.