IP Versions
Posted by Harisinh | Posted in | Posted on 12:57 PM
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The evolution of TCP/IP technology has led on to attempts to solve problems that improve service and extend functionalities. Most researchers seek new ways to develop and extend the improved technology, and millions of users want to solve new networking problems and improve the underlying mechanisms. The motivation behind revising the protocols arises from changes in underlying technology: first, computer and network hardware continues to evolve; second, as programmers invent new ways to use TCP/IP, additional protocol support is needed; third, the global Internet has experienced huge growth in size and use. This section examines a proposed revision of the Internet protocol which is one of the most significant engineering efforts so far. The network layer protocol is currently IPv4. IPv4 provides the basic communication mechanism of the TCP/IP suite. Although IPv4 is well designed, data communication has evolved since the inception of IPv4 in the 1970s. Despite its sound design, IPv4 has some deficiencies that make it unsuitable for the fast-growing Internet. The IETF decided to assign the new version of IP and to name it IPv6 to distinguish it from the current IPv4. The proposed IPv6 protocol retains many of the features that contributed to the success of IPv4. In fact, the designers have characterised IPv6 as being basically the same as IPv4 with a few modifications: IPv6 still supports connectionless delivery, allows the sender to choose the size of a datagram, and requires the sender to specify the maximum number of hops a datagram can make before being terminated. In addition, IPv6 also retains most of IPv4’s options, including facilities for fragmentation and source routing. IP version 6 (IPv6), also known as the Internet Protocol next generation (IPng), is the new version of the Internet Protocol, designed to be a full replacement for IPv4. IPv6 has an 128-bit address space, a revised header format, new options, an allowance for extension, support for resource allocation and increased security measures. However, due to the huge number of systems on the Internet, the transition from IPv4 to IPv6 cannot occur at once. It will take a considerable amount of time before every system in the Internet can move from IPv4 to IPv6. RFC 2460 defines the new IPv6 protocol.
IPv6 differs from IPv4 in a number of significant ways :
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• The IP address length in IPv6 is increased from 32 to 128 bits.
• IPv6 can automatically configure local addresses and locate IP routers to reduce configuration and setup problems.
• The IPv6 header format is simplified and some header fields dropped. This new header format improves router performance and make it easier to add new header types.
• Support for authentication, data integrity and data confidentiality are part of the IPv6 architecture.
• A new concept of flows has been added to IPv6 to enable the sender to request special
handling of datagrams.
This is all about the IP Version. Its working description and all that. Enjoy......
The evolution of TCP/IP technology has led on to attempts to solve problems that improve service and extend functionalities. Most researchers seek new ways to develop and extend the improved technology, and millions of users want to solve new networking problems and improve the underlying mechanisms. The motivation behind revising the protocols arises from changes in underlying technology: first, computer and network hardware continues to evolve; second, as programmers invent new ways to use TCP/IP, additional protocol support is needed; third, the global Internet has experienced huge growth in size and use. This section examines a proposed revision of the Internet protocol which is one of the most significant engineering efforts so far. The network layer protocol is currently IPv4. IPv4 provides the basic communication mechanism of the TCP/IP suite. Although IPv4 is well designed, data communication has evolved since the inception of IPv4 in the 1970s. Despite its sound design, IPv4 has some deficiencies that make it unsuitable for the fast-growing Internet. The IETF decided to assign the new version of IP and to name it IPv6 to distinguish it from the current IPv4. The proposed IPv6 protocol retains many of the features that contributed to the success of IPv4. In fact, the designers have characterised IPv6 as being basically the same as IPv4 with a few modifications: IPv6 still supports connectionless delivery, allows the sender to choose the size of a datagram, and requires the sender to specify the maximum number of hops a datagram can make before being terminated. In addition, IPv6 also retains most of IPv4’s options, including facilities for fragmentation and source routing. IP version 6 (IPv6), also known as the Internet Protocol next generation (IPng), is the new version of the Internet Protocol, designed to be a full replacement for IPv4. IPv6 has an 128-bit address space, a revised header format, new options, an allowance for extension, support for resource allocation and increased security measures. However, due to the huge number of systems on the Internet, the transition from IPv4 to IPv6 cannot occur at once. It will take a considerable amount of time before every system in the Internet can move from IPv4 to IPv6. RFC 2460 defines the new IPv6 protocol.
IPv6 differs from IPv4 in a number of significant ways :
--------------------------------------------------------
• The IP address length in IPv6 is increased from 32 to 128 bits.
• IPv6 can automatically configure local addresses and locate IP routers to reduce configuration and setup problems.
• The IPv6 header format is simplified and some header fields dropped. This new header format improves router performance and make it easier to add new header types.
• Support for authentication, data integrity and data confidentiality are part of the IPv6 architecture.
• A new concept of flows has been added to IPv6 to enable the sender to request special
handling of datagrams.
This is all about the IP Version. Its working description and all that. Enjoy......
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