1. A memory system connected to an external device, comprising:
a memory array configured to store command information, the external device generating a command based on the command information;
a storage part configured to store command analysis information to analyze the command generated by said external device based on said command information;
a communication part configured to receive the command generated by said external device based on said command information; and
a memory controller configured
to analyze said command received by said communication part based on said command analysis information, and
to perform said command,
wherein
the external device requests the command information with respect to the memory system when detecting the memory system being inserted therein,
the external device is forbidden access to said storage part, and
the command information and command analysis information are paired information that are different from each other.
2. The memory system according to claim 1, wherein said storage part is included in said memory array.
3. The memory system according to claim 2, further comprising:
a buffer configured to store the command analysis information transmitted from said storage part,
wherein said memory controller analyzes said command based on the command analysis information stored in said buffer.
4. The memory system according to claim 3, wherein memory elements constituting said buffer are accessed by said memory controller faster than memory elements constituting said memory array.
5. A computer system comprising:
a computer; and
a memory system including
a memory array configured to store command information, the computer generating a command based on the command information;
a storage part configured to store command analysis information to analyze the command generated by said computer based on said command information;
a communication part configured to receive the command generated by said computer based on said command information; and
a memory controller configured
to analyze said command received by said communication part based on said command analysis information, and
to perform said command,
wherein
said computer requests the command information with respect to the memory system when detecting the memory system being inserted therein,
said computer generates a required command based on said command information and sends the command to said memory system,
the computer is forbidden access to said storage part, and
the command information and command analysis information are paired information that are different from each other.
6. The computer system according to claim 5, wherein said storage part is included in said memory array.
7. The computer system according to claim 6, further comprising:
a buffer configured to store command analysis information transmitted from said storage part,
wherein said memory controller analyzes said command based on the command analysis information stored in said buffer.
8. The computer system according to claim 7, wherein memory elements constituting said buffer are accessed by said memory controller faster than memory elements constituting said memory array.
9. A memory control method in a computer system having a computer and a memory system, the method comprising:
sending, from a memory array of said memory system, command information with respect to the memory system to said computer when detecting the memory system being inserted into the computer;
generating a command in said computer based on said command information;
sending said command from said computer to said memory system;
analyzing said command based on command analysis information stored in a the storage part inside said memory system in advance; and
performing said command in said memory system,
wherein
the computer is forbidden access to said storage part, and
the command information and command analysis information are paired information that are different from each other.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. A method for receiving tunneled multi-user packets of unicast waveform over a broadcast-multicast waveform, comprising:
receiving a message over a broadcast-multicast waveform;
tunneling the message though a broadcastmulticast Inter-Route Tunneling Protocol (B-IRTP);
routing the message though a unicast stack; and
outputting the message to a user.
2. The method of claim 1, further comprising:
reviewing a type field in a Broadcast Packet Consolidation Protocol (B-PCP) header of the message before routing the message though the unicast stack, wherein the type field indicates whether the message is a BCMC signaling message.
3. The method of claim 1, receiving a message over a broadcast-multicast waveform is an AN-centric deployment-model, wherein the MulticastIPPort-to-BCMCFlowID is maintained per access node.
4. The method of claim 1, receiving a message over a broadcast-multicast waveform is a region-centric deployment-model, wherein the MulticastIPPort-to-BCMCFlowID is maintained regionally.
5. The method of claim 1, wherein the message is received on a broadcast physical channel.
6. The method of claim 1, further comprising:
reviewing a type field in a Broadcast Packet Consolidation Protocol (B-PCP) header to determine if the message is a BCMC signaling message, wherein the B-PCP performs framing of higher layer packets.
7. The method of claim 6, further comprising:
analyzing a begin filed of the B-PCP to ascertain a first fragment of the higher layer packet; and
analyzing an end field of the B-PCP to ascertain a last fragment of the higher layer packet.
8. A wireless communications apparatus, comprising:
a memory that retains instructions relating to receiving a message over a broadcast-multicast waveform, tunneling the message though a B-IRTP, routing the message though a unicast stack, and outputting the message to a user; and
a processor, coupled to the memory, configured to execute the instructions retained in the memory.
9. The wireless communications apparatus of claim 8, the memory further retains instructions relating to reviewing a type field in a Broadcast Packet Consolidation Protocol (B-PCP) header of the message before routing the message though the unicast stack, wherein the type field indicates whether the message is a BCMC signaling message.
10. The wireless communications apparatus of claim 8, the memory further retains instructions relating to receiving a message over a broadcast-multicast waveform is an AN-centric deployment-model, wherein the MulticastIPPort-to-BCMCFlowID is maintained per access node.
11. The wireless communications apparatus of claim 8, the memory further retains instructions relating to receiving a message over a broadcast-multicast waveform is a region-centric deployment-model, wherein the MulticastIPPort-to-BCMCFlowID is maintained regionally.
12. The wireless communications apparatus of claim 8, wherein the message is received on a broadcast physical channel.
13. The wireless communications apparatus of claim 8, the memory further retains instructions relating to reviewing a type field in a Broadcast Packet Consolidation Protocol (B-PCP) header to determine if the message is a BCMC signaling message, wherein the B-PCP performs framing of higher layer packets.
14. The wireless communications apparatus of claim 13, the memory further retains instructions relating to analyzing a begin filed of the B-PCP to ascertain a first fragment of the higher layer packet and analyzing an end field of the B-PCP to ascertain a last fragment of the higher layer packet.
15. A wireless communications apparatus that receives multi-user packets of a unicast waveform over a broadcast-multicast waveform, comprising:
means for receiving a message over a broadcast-multicast waveform;
means for tunneling the message though a B-IRTP;
means for routing the message though a unicast stack; and means for outputting the message to a user.
16. The wireless communications apparatus of claim 15, further comprising:
means for reviewing a type field in a Broadcast Packet Consolidation Protocol (B-PCP) header of the message before routing the message though the unicast stack, wherein the type field indicates whether the message is a BCMC signaling message.
17. The wireless communications apparatus of claim 15, wherein receiving a message over a broadcast-multicast waveform is an AN-centric deployment-model, wherein the MulticastIPPort-to-BCMCFlowID is maintained per access node.
18. The wireless communications apparatus of claim 15, wherein receiving a message over a broadcast-multicast waveform is a region-centric deployment-model, wherein the MulticastIPPort-to-BCMCFlowID is maintained regionally.
19. The wireless communications apparatus of claim 15, wherein the message is received on a broadcast physical channel.
20. The wireless communications apparatus of claim 15, further comprising:
means for reviewing a type field in a Broadcast Packet Consolidation Protocol (B-PCP) header to determine if the message is a BCMC signaling message, wherein the B-PCP performs framing of higher layer packets.
21. The wireless communications apparatus of claim 20, further comprising:
means for analyzing a begin filed of the B-PCP to ascertain a first fragment of the higher layer packet; and means for analyzing an end field of the B-PCP to ascertain a last fragment of the higher layer packet.
22. A machine-readable non-transitory medium having stored thereon machine-executable instructions for receiving tunneled multi-user packets of a unicast waveform over a broadcast-multicast waveform, comprising:
receiving a message over a broadcast-multicast waveform;
tunneling the message though a B-IRTP;
routing the message though a unicast stack; and
outputting the message to a user.
23. The machine-readable non-transitory medium of claim 22, wherein receiving a message over a broadcast-multicast waveform is an AN-centric deployment-model, wherein the MulticastIPPort-to-BCMCFlowID is maintained per access node.
24. The machine-readable non-transitory medium of claim 22, wherein receiving a message over a broadcast-multicast waveform is a region-centric deployment-model, wherein the MulticastIPPort-to-BCMCFlowID is maintained regionally.
25. In a wireless communications system, an apparatus comprising:
a processor configured to:
receive a message over a broadcast-multicast waveform;
tunnel the message though a B-IRTP;
review a type field in a Broadcast Packet Consolidation Protocol (B-PCP) header;
route the message though a unicast stack; and
output the message to a user, wherein the type field indicates whether the message is a BCMC signaling message.