Chapter 12 Introduction to Networking

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Across
  1. 2. SLAAC uses how many bits for the Interface ID
  2. 4. is the unofficial term used to refer to a segment of 16 bits
  3. 7. The devices run both IPv4 and IPv6 protocol stacks simultaneously
  4. 10. area between the Global Routing Prefix and the interface ID
  5. 11. uses EUI-64 to generate the interface ID for all LLAs on IPv6 interfaces
  6. 12. used to communicate with other devices on the same local link
  7. 13. first rule to help reduce the notation of IPv6 addresses is to omit any leading
  8. 14. Unlike IPv4, IPv6 does not have
  9. 20. Windows uses a what for interface ID
  10. 23. IPv6 addresses are 128 bits in length and written in
  11. 24. IPv6 unicast address that can be assigned to multiple devices
Down
  1. 1. similar to a public IPv4 address
  2. 2. no SLAAC
  3. 3. Unicast uniquely identifies an interface on an IPv6-enabled device
  4. 5. similar to NAT for IPv4
  5. 6. inserted into the middle of the 48-bit Ethernet MAC address of the client
  6. 8. similarity to RFC 1918 private addresses for IPv4
  7. 9. messages are sent by host devices to discover IPv6 routers
  8. 15. allows a device to configure a GUA without the services of DHCPv6
  9. 16. Multicast is used to send a single IPv6 packet to multiple destinations
  10. 17. method to create an interface ID
  11. 18. can replace any single, contiguous string of one or more 16-bit hextets
  12. 19. Notation the prefix length is represented
  13. 21. The IPv6 packet is encapsulated inside an IPv4 packet
  14. 22. messages are sent by routers to inform hosts on how to obtain an IPv6 GUA