Quarter of a Class A. CGNAT range (RFC 6598) lives here; also used for very large internal networks.
CGNAT range (RFC 6598) lives here; also used for very large internal networks.
The /10 subnet uses 255.192.0.0 as its subnet mask — meaning the first 10 bits of every address identify the network, and the remaining 22 bits identify the host within that network. That gives you 4.19M total addresses (4.19M usable on standard RFC math, after subtracting the network and broadcast addresses).
The wildcard mask — the bitwise inverse of the subnet mask — is 0.63.255.255. Wildcards are what Cisco access-control lists and OSPF area definitions use instead of subnet masks; the "1" bits mark "don't care" positions. For a /10, that leaves 22 don't-care host bits.
To find the network address for any IP in a /10 block, perform a bitwise AND between the IP and the subnet mask. To find the broadcast, OR the network address with the wildcard. Modern tools — like our subnet calculator — do this in microseconds, but the underlying mechanics are straightforward binary arithmetic.
A /10 carries 4.2 million addresses. It maps to RFC 6598 CGNAT space (100.64.0.0/10), which mobile carriers and large ISPs use behind shared NAT. You'll rarely allocate a /10 yourself unless you're building a tier-1 network.
Cloud-provider quirks matter at every prefix size: AWS and Azure reserve 5 IPs per subnet, GCP reserves 4, and OCI reserves 3. So a /10 on standard RFC math gives you 4.19M usable hosts, but on AWS or Azure that drops to 4.19M. The capacity-planning gap bites hardest at small prefixes (a /28 has 14 usable on paper, only 11 on AWS) but exists at every size. Our cloud-aware calculator applies the right math automatically.
A /10 subnet has 4.19M usable hosts on standard RFC math. On AWS or Azure (which reserve 5 IPs per subnet), you get 4.19M usable. On GCP (4 reserved), 4.19M. On OCI (3 reserved), 4.19M.
The /10 prefix corresponds to subnet mask 255.192.0.0. The matching wildcard mask (used in Cisco ACLs) is 0.63.255.255.
Apply a bitwise AND between the IP and the subnet mask to get the network address. OR the network address with the wildcard mask to get the broadcast. For example, 10.0.0.0/10 has 4.19M total addresses, with the first being the network address and the last being the broadcast.