A) B514:82C3:0029::EC7A:0000:EC72
B) B514:82C3:0029:EC7A:EC72
C) B514:82C3::0029:EC7A:0:EC72
D) B514:82C3::0029:EC7A:EC72
A) Global addresses start with 2000::/3
B) Link-Local addresses start with FE00:/12
C) Link-Local addresses start with FF00::/10
D) There is only one loopback address and it is ::1
E) if a global address is assigned to an interface, then that is the only allowable address for the interface.
A) telnet access does not require a password
B) NAT
C) no broadcast
D) change of destination address in the IPv6 header.
E) Change of source address in the IPv6 header.
F) autoconfiguration
A) 24
B) 4
C) 8
D) 16
A) Statically map IPv4 address to IPv6 addresses.
B) Configure IPv4 tunnels between IPv6 islands. C) use DHCPv6 to map IPv4 addresses to IPv6 addresses. D) use proxying and translation to translate IPv6 packets into IPv4 packets. E) configure IPv6 directly. F) enable dual-stack routing
C) use DHCPv6 to map IPv4 addresses to IPv6 addresses.
D) use proxying and translation to translate IPv6 packets into IPv4 packets.
E) configure IPv6 directly.
F) enable dual-stack routing
A) by appending 0xFF to the MAC address.
B) by prefixing the MAC address with 0xFFEE.
C) by prefixing the MAC address with 0xFF and appending 0xFF to it.
D) by inserting 0xFFFE between the upper three bytes and the lower three bytes of the MAC address.
E) by prefixing the MAC address with 0xF and inserting 0xF after each of its first three bytes.
A) 2001:0000:130F::099a::12a
B) 2002:7654:A1AD:61:81AF:CCC1
C) FEC0:ABCD:WXYZ:0067::2A4
D) 2004:1:25A4:886F::1
A) one-to-many communication model
B) delivery of packets to the group interface that is closest to the sending device.
C) any-to-many communication model
D) a unique IPv6 address for each device in the group.
E) the same address for multiple devices in the group.
F) one-to-nearest communication model.
A) host A IP address: 192.168.1.79
B) host A IP address: 192.168.1.64
C) host A default gateway: 192.168.1.78
D) host B IP address: 192.168.1.128
E) host B default gateway: 192.168.1.129
F) host B IP address: 192.168.1.190
A) FF02::1
B) FF02::2
C) FF02::3
D) FF02::4
A) 2031:0:130F::9C0:876A:130B
B) 2001:0db8:0:130H::87C:140B
C) 2001:0db8:0000:130F:0000:0000:08GC:140B
D) 2031::130F::9C0:876A:130B
A) FE08::280e:611:a:f14f:3d69
B) FE81::280f:512b:e14f:3d69
C) FE80::380e:611a:e14f:3d69
D) FEFE:0345:5f1b::e14d:3d69
A) There are four types of IPv6 addresses: unicast, multicast, anycast and broadcast.
B) A single interface may be assigned multiple IPv6 addresses of any type.
C) Every IPv6 interface contains at least one loopback address.
D) The first 64 bit represent the dynamically created interface ID.
E) Leading zeros in an IPv6 16 bit hexadecimal field are mandatory.
A) global unicast
B) anycast
C) multicast
D) unspecified address.
A) anycast
B) broadcast
D) padcast
E) allcast
A) checksums
B) optional IPsec
C) autoconfiguration
D) complicated header
E) plug-and-play
F) no broadcasts
A) 0::/10
B) 2000:/3
C) ::
D) ::1
A) enable dual-stack routing
B) configure IPv6 directly
C) configure IPv4 tunnels between IPv6 islands
D) use proxying and translation to translate Ipv6 packets into IPv4 packets.
E) statically map IPv4 addresses to IPv6 addresses.
F) use DHCPv6 to map IPv4 address to IPv6 addresses.
A) Global addresses start with 2003::/3
B) Link-local addresses start with FE00:/12
C) Link-local addresses start with FF00::/10
E) if a global address is assinged to an interface, then that is the only allowable address for the interface.
A) tunneling
B) hashing
C) routing
D) NAT
No comments:
Post a Comment