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(No se muestran 4 ediciones intermedias del mismo usuario) |
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| *S/N es la relacion señal ruido en dB | | *S/N es la relacion señal ruido en dB |
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| ==== Subnetting ==== | | ==== Sliding window ==== |
| Applying a subnet mask to an IP address allows you to identify the network and node parts of the address. The network bits are represented by the 1s in the mask, and the node bits are represented by the 0s. Performing a bitwise logical AND operation between the IP address and the subnet mask results in the Network Address or Number.
| | Se debe cumplir <math>2^{seqbits} \ge E+R</math> donde E y R son las ventanas de emisor y receptor. Si se verifica la formula se elimina el solapamiento. |
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| For example, using our test IP address and the default Class B subnet mask, we get:
| | ==== Internetworking ==== |
| | | *Tamaño del header IP: 20 bytes |
| 10001100.10110011.11110000.11001000 140.179.240.200 IP Address
| | *El offset de un paquete fragmentado se mide en '''multiplos de 8 bytes'''. |
| 11111111.11111111.00000000.00000000 255.255.000.000 Default Subnet Mask
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| --------------------------------------------------------
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| 10001100.10110011.00000000.00000000 140.179.000.000 Network Address
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| To calculate the number of subnets or nodes, use the formula (<math>2^n-2</math>) where n = number of bits in either field, and <math>2^n</math> represents 2 raised to the nth power. Multiplying the number of subnets by the number of nodes available per subnet gives you the total number of nodes available for your class and subnet mask. Also, note that although subnet masks with non-contiguous mask bits are allowed, they are not recommended.
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| Example:
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| 10001100.10110011.11011100.11001000 140.179.220.200 IP Address
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| 11111111.11111111.'''111'''00000.00000000 255.255.224.000 Subnet Mask
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| --------------------------------------------------------
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| 10001100.10110011.11000000.00000000 140.179.192.000 Subnet Address
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| 10001100.10110011.11011111.11111111 140.179.223.255 Broadcast Address
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| In this example a '''3 bit''' subnet mask was used. There are 6 (<math>2^3-2</math>) subnets available with this size mask ('''remember that subnets with all 0's and all 1's are not allowed'''). Each subnet has 8190 (<math>2^{13}-2</math>) nodes. Each subnet can have nodes assigned to any address between the Subnet address and the Broadcast address. This gives a total of 49,140 nodes for the entire class B address subnetted this way.
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| You can calculate the '''Subnet Address''' by performing a bitwise logical AND operation between the IP address and the subnet mask, then setting all the host bits to 0s. Similarly, you can calculate the '''Broadcast Address''' for a subnet by performing the same logical AND between the IP address and the subnet mask, then setting all the host bits to 1s. That is how these numbers are derived in the example above.
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| [[Category:Apuntes]] | | [[Category:Apuntes]] |