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IPv6 /100 Subnet Calculator

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A /100 provides 2²⁸ addresses — a tightly scoped segment much smaller than a /64. It is occasionally used for management networks or lab exercises where a full /64 is unnecessary.

/0
/128

/100 = 2²⁸ addresses (≈ 2.68 × 10⁸)

Results for 2001:db8:abcd:12::/100

Documentation (RFC 3849)Global scope
Network / prefixThe first address — identifies the subnet itself
First addressSubnet-router anycast; first address in the block
Last addressThe highest address in this block
Prefix maskEquivalent to /100
Total addresses≈ 2.68 × 10⁸ addresses
Address typeGlobally routable scope
More detailsNeighboring subnets, expanded address, reverse DNS, and hextet breakdown

Neighboring /100 subnets

Expanded address
Compressed address
Network (expanded)
Last address (expanded)
Prefix mask
Total addresses (exact)
Reverse DNS (PTR)
Host bits / network bits

Hextet breakdown

20010db8abcd00120000000000000001
NetworkSplit groupHost

Quick facts for IPv6 /100

IPv6 /100 reference guideBit split, overview, key facts, sizing tables, design notes, standards, and FAQ

Network / host bit split

Network bits (100)Split hextetHost bits (28)
Network bits
100
Host bits
28
Prefix mask
ffff:ffff:ffff:ffff:ffff:ffff:f000:0
Total addresses
2²⁸
Approx. count
2.68 × 10⁸
/64 subnets
Addresses formula
2^28
/64 relationship
smaller than a /64

Overview

A /100 provides 2²⁸ addresses — a tightly scoped segment much smaller than a /64. It is occasionally used for management networks or lab exercises where a full /64 is unnecessary.

Common use cases

  • Constrained management or out-of-band segments
  • Lab networks with a fixed address budget
  • Documentation of smaller-than-/64 designs

Key facts

  • A /100 fixes 100 network bits and leaves 28 host bits — 2²⁸ total addresses.
  • In network design terms, /100 is typically a constrained management or lab segment.
  • A /100 is 1/2³⁶ of a standard /64 LAN subnet.

Design guidance

A /100 can work for small management VLANs, out-of-band networks, or certification lab exercises where you deliberately cap the host count. For router interconnects, prefer /127 (RFC 6164) over /100. For ordinary LANs, stay with /64 regardless of how small the segment feels.

Practical example

In a lab, 2001:db8:abcd:0012::1/100 might number a small segment with 2²⁸ addresses. In production, you would normally expand this to a full /64 unless you have a documented exception.

Prefix sizing reference

Divide /100 into…

PrefixSubnetsAddresses each
/10122²⁷
/10242²⁶
/104162²⁴
/1082562²⁰

/100 fits inside…

SupernetAddresses/100s inside
/992²⁹2
/982³⁰4
/962³²16
/922³⁶256

Frequently asked questions

Common questions about IPv6 /100 blocks, prefix sizes, and use cases.

Common IPv6 prefix sizes

/3/12/16/20/24/28/32/36/40/44/48/52/56/60/64/80/96/112/120/124/126/127/128