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