Index
Symbols
- $$$ (TCAM), RIB versus FIBâRIB versus FIB
- 6LoWPAN (IETF), Characteristics of IoT Devices
- 6to4, security and, DHCPv6 Challenges
- :: (double-colons), Representation
A
- AAAA DNS records, IPv6 DNS Basics
- access-list (ACL) manageability
- best-fit allocation and, Best-Fit Allocation
- functional allocations and, Function and Location Assignment Revisited
- N+1 allocations and, N+1 Allocation
- random allocation and, Random Allocation
- sparse allocation and, Sparse Allocation
- acquisitions
- address planning for, Assigning Function and Location
- consolidating networks after, Unicast Addresses
- address allocation
- fixed, for sites, What Is a Site?
- planning, Obtaining an IPv6 Address Allocation
- sizes of, Properly-Sized Initial IPv6 Allocations
- Address Allocation for Private Internets, Introduction
- address exhaustion, A Dilemma of ScaleâA Dilemma of Scale, Conclusion
- business case for IPv6 and, The IPv6 Business Case You Already Have
- NAT and, IPv4 Exhaustion and NATâIPv4 Exhaustion and NAT
- address families
- MP-BGP, MP-BGP
- OSPFv3, OSPFv3 Address Families
- Address Lifetime Expectations (ALE), IPv4 Exhaustion and NAT
- address plan structure, Address Plan StructureâAddress Plan Structure
- designing with IPAM systems, IPAM Features
- address planning, IntroductionâSummary
- allocation methods, IPv6 Allocation MethodsâRandom Allocation
- for IoT applications, IPv6 Address Planning for IoT Deployments
- intra- vs. inter-site planning, Intra-Site Versus Inter-Site PlanningâIntra-Site Versus Inter-Site Planning
- sites, defined, What ...
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