IP addresses are typically represented in two primary formats: IPv4 and IPv6. In IPv4, an address consists of four segments (octets) of 8 bits each, resulting in a total of 32 bits. Each segment can range from 0 to 255, allowing for over four billion unique addresses. In contrast, IPv6 uses eight groups of 16 bits, significantly increasing the number of available addresses to accommodate the growing number of devices on the internet.
Because the offset address is 16 bits. This allows you to access 64kb with only one instruction.
128 Bits. An IPv6 address is made up of 8 fields consisting of 16 bits per field. If you multiply 8 x 16 will get 128 bits. Each field is separated by colons unlike IPv4 which was separated by dotted decimal notation. A good link to go to to see the address and how sub-netting is done is on the related links below.
You need 20 bits of address bus to address 1 Mb of memory.
48 bits is a typical MAC address in bits.
32 bits in a IPv4 address
The address bus in the 8085 is 16 bits wide.
In IP version 4, an IP address has 32 bits, or 4 bytes.In IP version 4, an IP address has 32 bits, or 4 bytes.In IP version 4, an IP address has 32 bits, or 4 bytes.In IP version 4, an IP address has 32 bits, or 4 bytes.
They are notated as 8 hexadecimal character strings which are separated by colons. Example; 01AE:03BE:0978:0974:EB1A:45CE:D43E:EE1A An IPv6 address is made up of hex consisting of 8 fields of 16 bits per field separated by colons. The total address size is 128 bits in length.
a TcP IPv4 ip address has 32 bits.
It requires 30 address bits to address 1GB of RAM.230 = 1,073,741,824
machine language
shards