Computer Science :: Computer Networking
- Which of the following is true when describing a multicast address?
- Which of the following is true when describing a unicast address?
- To enable OSPFv3, which of the following would you use?
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Which statement(s) about IPv6 addresses are true?
1. Leading zeros are required.
2. Two colons (::) are used to represent successive hexadecimal fields of zeros.
3. Two colons (::) are used to separate fields.
4. A single interface will have multiple IPv6 addresses of different types. - Which of the following is true when describing a link-local address?
- Which of the following is true when describing a unique local address?
- Which of the following is true when describing an anycast address?
- You want to ping the loopback address of your local host(with IPv6). What will you type?
- Which statement(s) about IPv4 and IPv6 addresses are true? 1. An IPv6 address is 32 bits long, represented in hexidecimal. 2. An IPv6 address is 128 bits long, represented in decimal. 3. An IPv4 address is 32 bits long, represented in decimal. 4. An IPv6 address is 128 bits long, represented in hexidecimal.
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A.
Packets addressed to a unicast address are delivered to a single interface. |
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B.
Packets are delivered to all interfaces identified by the address. This is also called a one-to-many address. |
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C.
Identifies multiple interfaces and is only delivered to one address. This address can also be called one-to-one-of-many. |
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D.
These addresses are meant for nonrouting purposes, but they are almost globally unique so it is unlikely they will have an address overlap. |
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A.
Packets addressed to a unicast address are delivered to a single interface. |
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B.
These are your typical publicly routable addresses, just like a regular publicly routable address in IPv4. |
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C.
These are like private addresses in IPv4 in that they are not meant to be routed. |
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D.
These addresses are meant for nonrouting purposes, but they are almost globally unique so it is unlikely they will have an address overlap. |
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A.
Packets addressed to a unicast address are delivered to a single interface. |
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B.
These are your typical publicly routable addresses, just like a regular publicly routable address in IPv4. |
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C.
These are like private addresses in IPv4 in that they are not meant to be routed. |
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D.
These addresses are meant for nonrouting purposes, but they are almost globally unique so it is unlikely they will have an address overlap. |
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A.
Packets addressed to a unicast address are delivered to a single interface. |
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B.
These are your typical publicly routable addresses, just like a regular publicly routable address in IPv4. |
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C.
These are like private addresses in IPv4 in that they are not meant to be routed. |
|
D.
These addresses are meant for nonrouting purposes, but they are almost globally unique so it is unlikely they will have an address overlap. |
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A.
Packets addressed to a unicast address are delivered to a single interface. |
|
B.
Packets are delivered to all interfaces identified by the address. This is also called one-to-many addresses. |
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C.
This address identifies multiple interfaces and the anycast packet is only delivered to one address. This address can also be called one-to-one-of-many. |
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D.
These addresses are meant for nonrouting purposes, but they are almost globally unique so it is unlikely they will have an address overlap. |