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006 m        d        
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008 070806s2000    maua    s     001 0 eng d
020   $a9781928994015
020   $a1928994016
035   $ab13655747-39ule_inst
037   $a101118:100792$bElsevier Science & Technology$nhttp://www.sciencedirect.com
040   $aOPELS$cOPELS$dOPELS$dBAKER
049   $aTEFA
082 04$a004.6/2$222
245 00$aIP addressing and subnetting, including IPv6$h[electronic resource] /$c[technical editor, Marc Blanchet].
260   $aRockland, MA :$bSyngress Media,$cc2000.
300   $axxii, 487 p. :$bill. ;$c24 cm.
500   $aIncludes index.
520   $aInternetworking Protocol (IP) addresses are the unique numeric identifiers required of every device connected to the Internet. They allow for the precise routing of data across very complex worldwide internetworks. The rules for their format and use are governed by the Internet Engineering Task Force (IETF) of the The Internet SOCiety (ISOC). In response to the exponential increase in demand for new IP addresses, the IETF has finalized its revision on IP addressing as IP Version 6, also know as IPng (ng = Next Generation). Key hardware vendors such as Cisco and major Internet Service Providers such as America Online have already announced plans to migrate to IP Version 6. IP address allocation within an organization requires a lot of long-term planning. This timely publication addresses the administrator and engineer's need to know how IP 6 impacts their enterprise networks * Ideal for companies planning a phased migration from IP 4 to IP 6 * Timely publication: The IETF standard was finalized in early 1999 and will begin to be implemented in late 1999/2000. The current IP Version 4 address set will be exhausted by 2003 * The book will focus on planning and configuring networks and devices for IP 6. Specifically, it will cover how to: * Increase the IP address size from 32 bits to 128 bits * Support more levels of addressing hierarchy * Support an increased number of addressable nodes * Support simpler auto-configuration of addresses * Improve the scalability of multicast routing by adding a "scope" field to multicast addresses * Use a new "anycast address" to send a packet to any one of a group of nodes.
533   $aElectronic reproduction.$bAmsterdam :$cElsevier Science & Technology,$d2007.$nMode of access: World Wide Web.$nSystem requirements: Web browser.$nTitle from title screen (viewed on Aug. 2, 2007).$nAccess may be restricted to users at subscribing institutions.
650  0$aInternet.
650  0$aTCP/IP (Computer network protocol)
650  0$aComputer network protocols.
655  7$aElectronic books.$2local
700 1 $aBlanchet, Marc,$d1964-$eauthor$4http://id.loc.gov/vocabulary/relators/aut$0735070
710 2 $aSyngress Media, Inc.
776 1 $cOriginal$z1928994016$z9781928994015$w(OCoLC)43565959
856 40$3Referex$uhttp://www.sciencedirect.com/science/book/9781928994015$zAn electronic book accessible through the World Wide Web; click for information
907   $a.b13655747$b24-02-22$c24-01-08
912   $a991003251809707536
994   $aC0$bTEF
996   $aIP addressing and subnetting, including IPv6$91451973
997   $aUNISALENTO
998   $ale029$b24-01-08$cm$dm  $e-$feng$gmau$h0$i0