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This Concept Map, created with IHMC CmapTools, has information related to: chp22, The future IP IPv6 features Address size-instead of 32 bits, each IPv6 address contains 128 bits, The future IP IPv6 Why change? the primary motivation for change arises from the limited address space., The future IP IPv6 Why change? Secondary motivations for change in IP have arisen from new Internet applications., The future IP IPv6 features Support for Audio and Video- IPv6 includes a mechanism that allows a sender and reciever to establish a high quality path through the underlying network and to associate datagrams with path., The future IP IPv6 addressing unicast-the address corresponds to a single computer., The future IP IPv6 The success of IP IP has made it possible for the Internet to handle heterogeneous networks, dramatic changes in hardware technology, and extreme increase in scale., The future IP IPv6 Why use separate extension headers? Extensibility, Anycast-the address corresponds to a set of computers that share a common address prefix. also known as cluster addressing, The future IP IPv6 features Extension Headers-Unlike IPv4, which uses a single header format for all datagrams, IPv6 encodes information into separate headers., The future IP IPv6 addressing Multicast- the address corresponds to a set of computer, possibly many locations; membership in the set can change at any time., The future IP IPv6 Why use separate extension headers? Economical, The future IP IPv6 features Extensible Protocol- Unlike IPv4, does not specify all possible protocol features., The future IP IPv6 features Header format-the IPv6 datagram header is completely different than the IPv4 header., The future IP IPv6 addressing Anycast-the address corresponds to a set of computers that share a common address prefix.