KEY FEATURES of IVP6 — IPV6 — USB 3.0
USB 3.0: KEY FEATURES of IVP6

Saturday, January 9, 2010

KEY FEATURES of IVP6

In a single sentence, IPv6 is a re-engineering effort against IP technology. Key features are listed below:
>>LARGER IP ADDRESS SPACE:
IPv4 uses only 32 bits for IP address space, which allows only 4 billion nodes to be identified on the Internet. 4 billion may look like a large number; however, it is less than the human population on the earth! IPv6 allows 128 bits for IP address space, allowing 340282366920938463463374607431768211456 (three hundred forty undecillion) nodes to be uniquely identified on the Internet. A larger address space allows true end-to-end communication, without NAT or other short-term workarounds against the IPv4 address shortage. (These days NAT is a headache for new protocol deployment and has scalability issues; we really need to decommission NAT networks for the Internet to grow further).
>>DEPLOY MORE RECENT TECHNOLOGIES:
After IPv4 was specified 20 years ago, we saw many technical improvements in networking. IPv6 includes a number of those improvements in its base specification, allowing people to assume these features are available everywhere, anytime. "Recent technologies" include, but are not limited to, the following:
>> AUTO CONFIGURATION:
With IPv4, DHCP exists but is optional. A novice user can get into trouble if they visit another site without a DHCP server. With IPv6, a "stateless host auto configuration" mechanism is mandatory. This is much simpler to use and manage than IPv4 DHCP. RFC2462 has the specification for it.
>>SECURITY:
With IPv4, IPsec is optional and you need to ask the peer if it supports IPsec. With IPv6, IPsec support is mandatory. By mandating IPsec, we can assume that you can secure your IP communication whenever you talk to IPv6 devices.
>> FRIENDLY TO TRAFFIC ENGINEERING TECHNOLOGIES:
IPv6 was designed to allow better support for traffic engineering like diffserv or intserv (RSVP). We do not have a single standard for traffic engineering yet, so the IPv6 base specification reserves a 24-bit space in the header field for those technologies and is able to adapt to coming standards better than IPv4.
>>MULTICAST:
Multicast is mandatory in IPv6, which was optional in IPv4. The IPv6 base specifications themselves extensively use multicast.
>>BETTER SUPPORT FOR AD-HOC NETWORKING:
Scoped addresses allow better support for ad-hoc (or "zeroconf") networking. IPv6 supports anycast addresses, which can also contribute to service discoveries.
>>A CURE TO ROUTING TABLE GROWTH:
The IPv4 backbone routing table size has been a big headache to ISPs and backbone operators. The IPv6 addressing specification restricts the number of backbone routing entries by advocating route aggregation. With the current IPv6 addressing specification, we will see only 8192 routes on the default-free zone.
>>SIMPLIFIED HEADER STRUCTURES:
IPv6 has simpler packet header structures than IPv4. It will allow future vendors to implement hardware acceleration for IPv6 routers easier.
>>ALLOWS FLEXIBLE PROTOCOL EXTENSIONS:
IPv6 allows more flexible protocol extensions than IPv4 does, by introducing a protocol header chain. Even though IPv6 allows flexible protocol extensions, IPv6 does not impose overhead to intermediate routers. It is achieved by splitting headers into two flavors: the headers intermediate routers need to examine, and the headers the end nodes will examine. This also eases hardware acceleration for IPv6 routers.
>>SMOOTH TRANSITION FROM IPV4:
There were number of transition considerations made during the IPv6 discussions. Also, there are large numbers of transition mechanisms available. You can pick the most suitable one for your site.
>>FOLLOWS THE KEY DESIGN PRINCIPLES OF IPV4:
IPv4 was a very successful design, as proven by the ultra large-scale global deployment. IPv6 is "new version of IP", and it follows many of the design features that made IPv4 very successful. This will also allow smooth transition from IPv4 to IPv6.

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