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If I have a pool of addressable IP's in 214.97.254/23, is it possible to assign addresses to 6 subnets that require:

  • Subnet A - 250 interfaces,
  • Subnet B - 120 interfaces,
  • Subnet C - 120 interfaces,
  • Subnet D (router between AB) - 2 interfaces,
  • Subnet E (router between BC) - 2 interfaces,
  • Subnet F (router between AC) - 2 interfaces?

  • The question asks for subnets that could support up to 250 interfaces, which leads me to believe these are distinct addressable IPs. Since the network and broadcast address are not usable on any interface for subnet, we actually need +2 addresses for subnets A, B, and C.

  • Subnet D,E,F are router point-to-point links, and I believe you can use /31 mask for these subnets.

All the online tutorials for VLSM give blocks of ip's by powers of 2. The problem with this method is that /24 for Subnet A (254), and /25 for Subnets B and C (126 each) would exhaust the available IP's for the routers.

The real question I have is: is there a specific notation that could be used for exactly 122 ip's of the form a.b.c.d/x - e.f.g.h/y?

e.g 214.97.255.0/25 - 214.97.255.0/30 = (128 - 4 = 124 -(2 bc/nw)) addresses for subnet B and 214.97.255.128/25 - 214.97.255.128/30 for subnet C I can't find anything related to this form of subnet masking ranges.

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up vote 1 down vote accepted

Briefly speaking, NO. VLSM deals with the powers of two exactly, regardless of interfaces (hosts) adding up to the power of two or not.

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