Editing IPv6 (section)

===Larger address space===
The main advantage of IPv6 over IPv4 is its larger address space. The size of an IPv6 address is 128 bits, compared to 32 bits in IPv4.<ref name=rfc2460/> The address space therefore has 2<sup>128</sup>=340,282,366,920,938,463,463,374,607,431,768,211,456 addresses (340 [[undecillion]], approximately {{val|3.4|e=38}}). Some blocks of this space and some specific addresses are [[reserved IP addresses|reserved for special uses]].

While this address space is very large, it was not the intent of the designers of IPv6 to assure geographical saturation with usable addresses. Rather, the longer addresses simplify allocation of addresses, enable efficient [[route aggregation]], and allow implementation of special addressing features. In IPv4, complex [[Classless Inter-Domain Routing]] (CIDR) methods were developed to make the best use of the small address space. The standard size of a subnet in IPv6 is 2<sup>64</sup> addresses, about four billion times the size of the entire IPv4 address space. Thus, actual address space utilization will be small in IPv6, but network management and routing efficiency are improved by the large subnet space and hierarchical route aggregation.