Your all-in-one interactive visual IP address and CIDR range calculator. Easily calculate CIDR notations, IP address ranges, subnet masks, and more.
Subnet calculator: enter the network (CIDR block aggregation notation) you wish to subnet to get the range of IPs.
CIDR block aggregation notation calculator: enter the start and finish IP range you wish to convert into CIDR ranges.
CIDR (Classless Inter-Domain Routing) notation provides a streamlined approach to defining IP address ranges and subnet masks, making it essential for network setup and administration.
An IP address is composed of four octets, with each octet containing 8 bits that can range from 0 to 255. In CIDR notation, a slash (/) followed by a numeral represents the number of bits in the network prefix.
This prefix length sets the network mask and determines the number of host addresses available in the defined IP range. This calculator aids in visualizing and understanding CIDR blocks, simplifying network planning and configuration.
To calculate the IP range from CIDR, identify the starting IP address and then apply the subnet mask to determine the range of addresses available. The CIDR notation includes both the IP address and a suffix that indicates the number of bits in the subnet mask.
CIDR helps optimize IP address allocation, reduces the size of routing tables, and allows for more flexible network design, which can lead to more efficient use of IP address space.
Converting an IP range to CIDR involves finding the smallest CIDR block that encompasses all the IP addresses within the range. This can be calculated manually or by using a conversion tool.
CIDR and VLSM (Variable Length Subnet Masking) are similar in concept. VLSM allows subnet masks to vary within the same network, which enables CIDR to create flexible network sizes rather than fixed sizes used in classful networking.
CIDR is used by Internet Service Providers (ISPs) to allocate IP addresses, in enterprise networks to segment traffic, and in data centers to optimize network management. It`s also used in Access Control Lists (ACLs) for specifying IP ranges.
The subnet mask can be calculated based on the CIDR prefix length. For example, a /24 CIDR prefix means the first 24 bits are part of the network address, which corresponds to a subnet mask of 255.255.255.0.
A wildcard mask is used in networking to identify which parts of an IP address can vary and which parts must remain fixed. It is commonly used in Access Control Lists (ACLs) to specify IP ranges.
An IP address range is the sequence of IP addresses defined by a network and subnet mask. It is important because it dictates the scope of devices that can communicate within a network or across networks.
Yes, CIDR is used with both IPv4 and IPv6, though IPv6 addresses are larger and have different formatting. CIDR helps manage address allocation in both versions of the IP protocol.
CIDR allows IP addresses to be aggregated, meaning that multiple IP addresses can be grouped into a single routing entry. This reduces the number of entries in routing tables, which improves network efficiency and performance.
ISPs use CIDR to allocate IP address ranges to their customers in an efficient manner. CIDR’s flexibility allows ISPs to allocate blocks of addresses that meet customers` specific needs without wasting IP space.
Public IP ranges are routable on the internet and are assigned by a central authority, whereas private IP ranges are used within internal networks. CIDR can be applied to both public and private IP addresses for subnetting purposes.
While CIDR improves the efficiency of IPv4 address allocation, it does not solve IPv4 exhaustion. However, by reducing waste, CIDR does help extend the usability of existing IPv4 address space.